KR101025759B1 - A modulation method for an infrared remote controller and a transmitter for the infrared remote controller - Google Patents

Abstract

PURPOSE: A modulation method of an infrared remote controller and a transmitter of the infrared remote controller are provided to improve a frequency band expandability and a frequency compatibility. CONSTITUTION: An infrared ray transmitter(10) modulates transmission data into a multi carrier wave. In a second place, a user modulates transmission data into the carrier frequency. An A/V radio receiver wirelessly receives the modulated data. The received data is wirelessly transmitted to a first place. The A/V radio transmitter in the first place modulates the data into a multi carrier wave.

Description

A modulation method for an infrared remote controller and a transmitter for the infrared remote controller}

The present invention relates to a modulation method of an infrared remote controller. In the infrared communication, the transmitter frequency and the receiver band of the remote controller must be identical, and in this case, the receiver must use the same frequency band as the transmitter. However, in recent years, various frequency products are used in infrared remote control applications of various multimedia home appliances, and the necessity of relaying and interworking among these products is increasing. The present invention changes the modulation method of the infrared remote controller from a single carrier to a multi-carrier method, thereby enabling the simultaneous communication of multiple bands and the use of an infrared receiver having an unspecified or unknown frequency band, which are not possible with a conventional infrared remote controller.

Currently, the carrier frequency used in the infrared communication of the remote controller is used in the 30KHz ~ 60KHz band. In the design of the infrared remote controller, first, select the transmission frequency band of the infrared remote controller, select the infrared receiver module of this frequency band or vice versa, and select the infrared transmitter accordingly. That is, the transmission and reception frequencies are specified and used the same. Therefore, the existing infrared transmitter fixed to one frequency cannot normally operate a plurality of infrared receivers having a plurality of operating frequency bands at the same time or a normal operation of an infrared receiver having an unspecified or unknown frequency band.

In the infrared transmitter, the existing single carrier method must match the transmission / reception bands, but in the infrared remote communication, various frequencies are used by manufacturers. Therefore, the conventional single carrier method is difficult to expect normal operation for an infrared receiver having an unspecified unknown frequency band, and it is also impossible to simultaneously operate multiple infrared receivers using various bands simultaneously.

The present invention was devised to solve the above-mentioned problems of the related arts, and provides a technique for simultaneously operating a plurality of infrared receivers using various bands as well as an infrared receiver having an unspecified or unknown frequency band by using multiple carriers. It aims to do it.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention and the accompanying drawings.

One of the preferred problem solving means of the infrared remote control modulation method according to the present invention,

In the infrared remote control modulation method of the infrared communication of the same transmitter and receiver band of the remote control,

In order to enable normal infrared remote control communication even in an environment in which simultaneous communication of multiple bands, a receiver's operating frequency band is not known, or multiple infrared receivers having various operating frequencies are used at the same time, an infrared transmitter modulates transmission data with multiple carriers. Characterized in that it comprises a step (S10) for transmitting.

In this embodiment, the step (S10) of modulating and transmitting the transmission data to the multi-carrier, it is preferable to include a step (S12) to make a multi-carrier by binary addition of each independent carrier.

In this embodiment, the user of the A / V wireless receiver and the monitor connected to the remote location of the set-top box located in the second location remote control using an infrared transmitter while watching the monitor (S20) It is preferable to further include.

In this embodiment, the step of controlling the remote (S20),

Step S21, in which the user presses the infrared transmitter toward the A / V radio receiver at a second place to modulate the transmission data to a carrier frequency and wirelessly transmit it (S21);

A / V wireless receiver wirelessly receives the transmission data transmitted in step S21 and wirelessly transmits the transmitted data to the first place (S22);

Step (S23) of wirelessly receiving the transmission data transmitted in the above step S22 by the A / V radio transmitter of the first location and multi-carrier;

Transmitting the modulated transmission data in step S23 to the set-top box with an infrared booster (S24); And

Step S25 of wirelessly receiving the transmission data transmitted in the above step S24 and operating the set-top box accordingly;

It is preferable to comprise.

On the other hand, one of the preferred problem solving means of the infrared remote control transmitter according to the present invention,

In the infrared remote control transmitter of infrared communication, in which the transmitter frequency of the remote control and the receiver band are the same,

The first logic of the binary adder role of making multiple carriers to enable normal infrared remote control communication even in the simultaneous communication of multiple bands, the operating frequency band of the receiver, or the simultaneous use of multiple infrared receivers having various operating frequencies. device;

A second logic element for modulating and outputting multiple carriers and transmission data inputted from the first logic element; And

A light emitting diode that transmits the output signal of the second logic element to a plurality of infrared receivers when the output signal is modulated by the infrared transmitter;

It is characterized by consisting of.

In this embodiment, the plurality of infrared receivers are a plurality of infrared receivers having different frequency bands, and it is preferable to use multiple carriers to use these multiple infrared receivers simultaneously.

In this embodiment, the infrared receiver is an A / V wireless receiver, the infrared remote control transmitter is installed in the A / V wireless transmitter and connected to a set-top box having an antenna, and the A / V wireless receiver is an A / V wireless receiver. It is desirable to be installed remotely from the transmitter.

In this embodiment, when the monitor is connected to the A / V wireless receiver and the user transmits the control transmission data along with the carrier frequency to the A / V wireless receiver through the infrared transmitter to control the remote set-top box, these signals are modulated. It is desirable to control the set-top box by wirelessly transmitted to a remote A / V transmitter, modulated by multiple carriers, and then transmitted to the set-top box via an infrared booster.

Therefore, in the present invention, by using multiple carriers in the transmitter, it is possible to simultaneously operate a plurality of infrared receivers using various bands as well as an infrared receiver having an unspecified or unknown frequency band.

In addition, the present invention not only enables normal infrared remote control communication even when a plurality of infrared receivers having various operating frequencies are used at the same time, but also has an effect of increasing the reception frequency band and frequency compatibility of the infrared remote control.

1. Infrared remote control transmitter

3 shows an embodiment of this invention. Place- I and II are remote. Venue-I set-top boxes and Venue-II monitors are conventional commercial products, and the carrier frequency of the infrared remote control used in this product is an unspecified frequency that may vary depending on the manufacturer. The A / V Wireless Transmitter receives the infrared signal from the infrared remote control in the opposite direction to the function of wirelessly transmitting the video received from the set-top box installed in Site-I and transmitting it to the monitor in Site-II. It performs the function of passing to. The A / V radio transmitter transmits the infrared remote control reception data to the set-top box using an infrared booster. Through this process, the user can control the remote set-top box by using an infrared remote controller while looking at the monitor. In the present invention, by using a multi-carrier in the infrared booster used in the A / V wireless transmitter has the advantage that can be used irrespective of the infrared remote control frequency of the set-top box used by the manufacturer.

2. Infrared remote control modulation method

The infrared remote control modulation method according to the present invention is applied to the case of infrared communication in which the transmitter frequency and the receiver band of the remote control are the same.

In order to enable normal infrared remote control communication even in an environment in which simultaneous communication of multiple bands, a receiver's operating frequency band is not known, or a plurality of infrared receivers having various operating frequencies are simultaneously used, the transmission data is modulated from the infrared transmitter to multiple carriers. Characterized in that it comprises a step (S10) for transmitting.

In the present invention, the step (S10) of modulating and transmitting the transmission data to the multi-carrier, it is preferable to include a step (S12) to make a multi-carrier by binary addition of each independent carrier.

In the present invention, the user of the A / V wireless receiver and the monitor connected to the set-top box located in the second place is a remote control by using an infrared transmitter while watching the monitor (S20) It is preferable to further include.

And in this invention, the step of remotely controlling (S20),

Step S21, in which the user presses the infrared transmitter toward the A / V radio receiver at a second place to modulate the transmission data to a carrier frequency and wirelessly transmit it (S21);

A / V wireless receiver wirelessly receives the transmission data transmitted in step S21 and wirelessly transmits the transmitted data to the first place (S22);

Step S23 of wirelessly receiving the transmission data transmitted in the above step S22 by the A / V radio transmitter of the first location and modulating the multicarrier;

Transmitting the modulated transmission data in step S23 to the set-top box with an infrared booster (S24); And

Step S25 of wirelessly receiving the transmission data transmitted in the above step S24 and operating the set-top box accordingly;

It is preferable to comprise.

As such, the present invention may be variously modified and may take various forms, and only the specific embodiments thereof are described in the detailed description of the present invention. It is to be understood, however, that the invention is not limited to the specific forms referred to in the detailed description of the invention, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood to do.

This invention is a technology that can be utilized in various cases, such as when watching a digital broadcast with a set-top box is a technology that is highly applicable to the industry.

1 is an infrared remote control multiple modulation method of the present invention

2 is a conventional infrared remote control modulation method

3 is an embodiment of the present invention

<Description of the code | symbol about the main structure of drawing>

10: infrared transmitter 12,72: exclusive OR gate

14,74: AND gate 16: light emitting diodes

20: Infrared receiver (F1 band) 22, 32, 42, 52, 54, 56, 82: Receive diode

30: Infrared receiver (F2 band) 40: Infrared receiver (F3 band)

50: A / V Receiver 60: Monitor

70: A / V radio transmitter 76: infrared booster

80: set top box 84: antenna

F1, F2, F3: Carrier frequency N: Transmit data / Receive data

Claims (8)

In the infrared remote control modulation method of the infrared communication of the same transmitter and receiver band of the remote control, In order to enable normal infrared remote control communication even in an environment in which simultaneous communication of multiple bands, a receiver's operating frequency band is not known, or multiple infrared receivers having various operating frequencies are used at the same time, an infrared transmitter modulates transmission data with multiple carriers. Transmitting step (S10), characterized in that the modulation method of the infrared remote control. The method of claim 1, modulating the transmission data to the multi-carrier and transmitting (S10), And binary addition of each independent carrier to create a multi-carrier (S12). The method of claim 1 or 2, wherein the user of the A / V radio receiver and the monitor connected to the remote set-top box located at the first location is remotely controlled by using an infrared transmitter while watching the monitor. Further comprising a step (S20), modulation method of the infrared remote control. The remote control step (S20) in claim 3, Step S21, in which the user presses the infrared transmitter toward the A / V radio receiver at a second place to modulate the transmission data to a carrier frequency and wirelessly transmit it (S21); A / V wireless receiver wirelessly receives the transmission data transmitted in step S21 and wirelessly transmits the transmitted data to the first place (S22); Step S23 of wirelessly receiving the transmission data transmitted in the above step S22 by the A / V radio transmitter of the first location and modulating the multicarrier; Transmitting the modulated transmission data in step S23 to the set-top box with an infrared booster (S24); And Step S25 of wirelessly receiving the transmission data transmitted in the above step S24 and operating the set-top box accordingly; Modulation method of the infrared remote control, characterized in that comprising a. In the infrared remote control transmitter of infrared communication, in which the transmitter frequency of the remote control and the receiver band are the same, The first logic of the binary adder role of making multiple carriers to enable normal infrared remote control communication even in the simultaneous communication of multiple bands, the operating frequency band of the receiver, or the simultaneous use of multiple infrared receivers having various operating frequencies. device; A second logic element for modulating and outputting multiple carriers and transmission data inputted from the first logic element; And A light emitting diode that transmits the output signal of the second logic element to a plurality of infrared receivers when the output signal is modulated by the infrared transmitter; Characterized in that comprises a, infrared remote control transmitter. The infrared remote control transmitter of claim 5, wherein the plurality of infrared receivers are a plurality of infrared receivers having several frequency bands and use multiple carriers to simultaneously use the plurality of infrared receivers. In claim 5, the infrared receiver is an A / V wireless receiver, the infrared remote control transmitter is installed in the A / V wireless transmitter and is connected to a set-top box having an antenna, and the A / V wireless receiver is an A / V wireless transmitter. Infrared remote control transmitter, characterized in that it is installed remotely from the. The signal is modulated when a monitor is connected to an A / V radio receiver and a user transmits control transmission data along with a carrier frequency to an A / V radio receiver through an infrared transmitter to control a remote set-top box. Infrared remote control transmitter, characterized in that the wireless transmission to the remote A / V wireless transmitter is modulated by multiple carriers and then transmitted to the set-top box via an infrared booster to control the set-top box.

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