KR100386565B1 - Mobile terminal having remote controller and remote controlling method using the same - Google Patents

Abstract

The present invention is to provide a mobile phone having a remote control device and a remote control method using the remote control device capable of remote control using infrared as well as information transmission using infrared in a mobile phone equipped with an infrared module (Infrared Module). A mobile phone equipped with such a remote control device includes a key input unit consisting of a character key, a function key or a volume key, a memory unit for storing key data and signal formats necessary for remote control of a control target device, and the key input unit. A control unit for determining whether the input mode is a remote control mode using a radio frequency, a data communication mode using an infrared communication method, or a remote control mode using an infrared communication method by receiving an input mode of the input mode; A general-purpose input / output unit (GPIO) that performs data transmission processing according to the case where the mode is a remote control mode using an infrared communication method, and outputs an infrared remote control signal to the control target device according to a signal output from the general-purpose input / output unit. An infrared remote control unit for outputting a signal; It consists of an infrared transceiver for converting and outputting the electrical signal to an optical signal.

Description

Mobile terminal having a remote control device and a remote control method using the same {Mobile terminal having remote controller and remote controlling method using the same}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infrared remote control device for a mobile phone. In particular, a mobile phone having a remote control device for enabling an infrared remote control by providing a remote control device to a mobile phone equipped with an infrared module and a remote control method using the same It is about.

Infrared rays refers to light that is between visible light and millimeter wave among electromagnetic waves and has a wavelength ranging from about 0.7 μm to several hundred μm. Recently, with the development of lasers, powerful infrared light sources have been obtained. Semiconductor lasers emitting light around a wavelength of 1 mu m are used for optical communication.

Infrared modules, which have been mainly used for remote control of home appliances such as TVs and VCRs, have recently been used in interactive TVs, notebook PCs, digital cameras, and mobile communication terminals (mobile phones).

An infrared transceiver module (Infrared Transceiver) for processing a signal to transmit and receive various data wirelessly within a distance of 1 ~ 2m by embedding such an infrared module in various communication and digital devices are attracting attention as the next generation mobile communication device.

In particular, the Infrared Data Association (hereinafter abbreviated as IrDA) allows an infrared module to be adopted in a mobile communication terminal (mobile phone). Infrared Mobile Communication (Infrared Mobile Communication) standards are also being announced, and infrared module makers are demonstrating prototypes of mobile communication terminals (mobile phones) based on this. By the end of 2000, it is expected to develop products that can increase the data transfer rate by 100Mbps. It is being used in various digital devices such as mobile communication terminals (mobile phones) and industrial electronic systems. Such infrared communication is used as a point-to-point in information processing interoperability and large-scale products and devices. The transmission uses an infrared light emitting diode and the reception is performed using a photodiode. photodiode).

Since data communication using infrared rays does not use radio frequency, there is an advantage that no administrative procedure such as radio permission or radio wave regulation is required.

Such hardware features of IrDA must satisfy the specifications of signal intensity, reach, bit error rate, pulse modulation, etc. of infrared transmission module specified in IrDA standard (version 1.0, 1.1) and designed to have optical angle of 30 °. The hardware standards of IrDA include IR-SIR (9,600 to 115,200 bps), IR-MIR (575,000 to 1,115,200 bps) and IR-FIR (4.0 Mbps).

Hereinafter, a mobile phone having a conventional infrared transceiver is described with reference to the accompanying drawings.

1 is a block diagram illustrating a general infrared transceiver.

As shown in FIG. 1, a general infrared transceiver includes a detection receiver 1 for detecting infrared data, converting the signal into an electrical signal, and transmitting the same to an infrared receiver decoder 2, and an electrical signal transmitted from the detection receiver 1. A decoded infrared receiver (2) for transmitting to the general purpose asynchronous transmitter and receiver (3), and a universal asynchronous transceiver for receiving infrared data transmitted from the infrared receiver (2) and interfacing with a central processing unit (CPU) (Universal Asynchronous Receiver Transmitter (UART)) 3, an infrared transmitting encoder 4 for encoding and transmitting an electrical signal transmitted from the universal asynchronous transceiver 3 to an output driving light emitting diode 5, and the infrared ray It consists of an output driving light-emitting diode 5 which converts the electrical signal received from the transmitting encoder 4 into an optical signal and transmits it.

2 is a view showing a data frame and an infrared data frame of a conventional general purpose asynchronous transmission and reception apparatus.

The data frame and the infrared data frame of the conventional universal asynchronous transmission and reception device (UART) are shown in FIG. 2 and generally show the conversion of the data frame and the infrared data frame of the universal asynchronous transmission and reception device (UART) in serial communication.

In general, the signal of the general purpose asynchronous transmission and reception device is a start bit (Start Bit) and one or two stop bits (Stop Bit) to indicate the start and end, and parity (parity) bit is added for error detection. Seven or eight data bits are included between the start and stop bits. The logic 0 of the infrared data frame is a pulse having a minimum interval of 1.6 mu m and a maximum interval of 3/16 of a bit cycle. Using such a universal asynchronous transmission and reception device (UART), the electrical signal between the mobile phone is converted into an optical signal and transmitted and received.

3 is a view showing a form of information exchange between conventional mobile phones.

Conventional information exchange form between mobile phones (Mobile Terminal) is provided with an infrared transmission and reception module on one side of the mobile phone, facing the transmission and reception module of the other mobile phone within 1m distance and then send and receive information.

4 is a diagram illustrating a signal format of a general infrared remote controller.

In general, the signal format applied to the infrared remote controller is shown in FIG. 4, and the role of the leader code is a preliminary signal output before the signal to be output during infrared decoding. Here, the reader code includes normal (High: 9ms, Low: 4.5ms) to output the first signal and repeat (High: 9ms, Low: 2.25ms) to repeatedly output the same command as the previous signal. have.

The custom code is a unique code according to a control target or a manufacturer, and the data code is assigned an actual control command and data. The bit information of the custom code or data code is divided into 0 (1.125ms) and 1 (2.25ms) according to the period of the low state after the pulse having a constant width (0.56ms).

In addition, the period of one byte of the custom code or data code is fixed so that the number of 0 and 1 is fixed to each of four (these signal code formats can be changed depending on the control target or the manufacturer).

The conventional mobile phone using the infrared transceiver is equipped with an infrared transceiver in the mobile phone to enable not only mobile communication using the mobile phone, but also IrDA-type data communication, and more various methods of using the mobile phone are continuously studied. have.

An object of the present invention has been made in view of the above-mentioned prior art, and provided with a remote control device that enables remote control using infrared as well as information transmission using infrared in a mobile phone equipped with an infrared module. To provide a mobile phone and a remote control method using the same.

According to an aspect of the present invention for achieving the above object, a key input unit consisting of a character key, a function key or a volume key, and a memory for storing key data and signal format required for remote control of a controlled device A control unit for receiving an input mode of the key input unit and determining whether the input mode is a remote control mode using a radio frequency, a data communication mode using an infrared communication method, or a remote control mode using an infrared communication method; A general-purpose input / output unit (GPIO) for data transmission processing according to the case where the input mode received by the controller is a remote control mode using an infrared communication method, and an infrared remote control to the control target device according to a signal output from the general-purpose input / output unit. An infrared remote control unit for outputting an electrical signal to output an adjustment signal; Converting the electrical signal output from the control bit in the optical signal to be composed of an infrared transceiver for outputting.

According to another aspect of the present invention for achieving the above object, in a mobile phone having a memory unit for storing key data and signal format required for remote control of the controlled device, the input signal is a radio frequency Determining whether the remote control mode is used; determining whether the input signal is a data communication mode or a remote control mode using an infrared communication method if the input signal is not a remote control mode using a radio frequency; In the remote control mode using an infrared communication method, calling the key data and signal format of the remote control control target device from the memory unit; and calling the called key data and signal format from the remote control control device. The output consists of the steps.

According to the present invention as described above, there is an advantage that can be remotely controlled such as household appliances using a mobile phone.

1 is a block diagram illustrating a general infrared transceiver

2 is a view showing a data frame and an infrared data frame of a conventional general purpose asynchronous transmission and reception apparatus;

3 is a view showing a form of information exchange between conventional mobile phones

4 is a view illustrating a signal format of a general infrared remote controller

Figure 5 is a block diagram showing a mobile phone having an infrared remote control device according to the present invention

FIG. 6 is a block diagram of the infrared remote controller shown in FIG.

7 is a view showing a state of use of a mobile phone having an infrared remote control device according to the present invention;

8 is a flowchart for explaining a remote control method using a radio frequency of the mobile phone shown in FIG.

FIG. 9 is a flowchart for explaining a remote control method and an information transmission method using infrared communication (IrDA) of the mobile phone shown in FIG.

* Description of the symbols for the main parts of the drawings *

11: memory unit 12: key input unit

13 display unit 14 control unit

15: frequency converter 16: transmitter

17: switch unit 18: general purpose asynchronous transmission and reception unit (UART)

19: infrared communication modulator and demodulator 20: infrared transceiver

21: General-purpose input / output unit (GPIO) 22: Infrared remote control unit

31: mobile phone with remote control unit

32: television (TV)

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

5 is a block diagram showing a mobile phone having an infrared remote control apparatus according to the present invention.

A mobile phone having an infrared remote control apparatus according to the present invention includes a memory unit 11 storing key data and signal formats required for an infrared remote for a plurality of devices, a character key, a function key, and a volume. ) A key input unit 12 which receives an input of a key and transmits it to the control unit 14, a display unit 13 which displays various characters in a mobile phone, and an input mode of the key input unit 12 to receive the input. A control unit 14 for determining whether the mode is a remote control mode using radio frequency (RF), a data communication mode using an infrared communication (IrDA) method, or a remote control mode using an infrared communication method, and the control unit 14 A frequency converter 15 for outputting the corresponding remote control frequency to the transmitter 16 according to the case where the input mode received in the remote control mode using the radio frequency is received, and the frequency output from the frequency converter 15. A transmitter 17 for outputting a radio signal according to the number, a switch unit 17 for selecting antennas ANT1 and ANT2 for transmitting and receiving signals of different frequencies according to the output of the transmitter 16, and the controller ( 14) a universal asynchronous transmission and reception unit (UART) 18 for performing data transmission processing in the case where the input mode received in the data communication mode using the infrared communication method, and the signal output from the universal asynchronous transmission and reception unit 18 An infrared modulator and a demodulator for encoding and transmitting to the infrared transceiver 20, or for demodulating the data transmitted from the infrared transceiver 20 to the general purpose asynchronous transceiver 18; 19), a general port input output (GPIO) 21 for performing data transmission processing in the case where the input mode received by the controller 14 is a remote control mode using an infrared communication method, and the general purpose. I / O section 21 Selects a transmission mode according to the output signal and adjusts an output level, and optically outputs an electrical signal output from the infrared communication modulator and demodulator 19 and the infrared remote controller 22. It is composed of an infrared transceiver 20 for converting and outputting a signal or receiving an optical signal input from the outside, converting the signal into an electrical signal, and then transmitting the signal to the infrared communication modulator and demodulator 19.

Here, the remote control mode using radio frequency is to serve as a remote start alarm used to turn on / off a car, for example. There are FM methods that are effective for the performance, and AM methods that are effective for the performance in the mountains and provinces, and are used in the FM 447MHz and AM 311MHz frequency bands to eliminate side effects among other products due to various communication problems. The transmission / reception distance is about 30m for AM and about 60m for FM. In such a remote control mode, there is a problem in that an identifier (ID) code for transmitting and receiving data between a mobile phone (remote control data transmitter) and a remote control receiver (remote control control unit and remote control data receiver) needs to be known. The same problem is that if the identifier code provided by the manufacturer of the remote control device (Vender) and the corresponding data are stored in the mobile phone, the remote control can be performed through a remote control mode using a radio frequency. It can also be used for garage door control related to automobiles.

In the data communication mode using an infrared communication method (IrDA), infrared data (IrDA) modulator and demodulator convert the optical data transmitted and received through the infrared transceiver 20 into electrical data in the infrared transceiver 20. When transmitting to (19), the infrared communication modulator and demodulator 19 decodes it and transmits it to the universal asynchronous transceiver (UART) 19, or encodes the data transmitted from the universal asynchronous transceiver 19 to transmit and receive infrared rays. By transmitting to the unit 20 is a data communication between the mobile phone or between the mobile phone and the computer (PC).

In addition, in the remote control mode using the infrared communication method IrDA, if the remote control mode is input from the control unit 14 to the general-purpose input / output unit 21 according to the input mode of the key input unit 12, the infrared transceiver unit 20 The path of the control command and the data to be transmitted is selected by selecting the light emitting diode of the () as an infrared controller, and the general purpose input / output unit (GPIO) 21 for inputting a signal to the infrared remote controller 22 is selected. Subsequently, the controller 14 selects a leader code, a custom code, and a format of a data code according to a control model and a manufacturer of an infrared controller. That is, the corresponding information is read from the memory unit 11, which contains a control model of the infrared remote control unit 22, a custom and data code format according to the manufacturer, and a pre-written format such as a signal period thereof. Subsequently, functions corresponding to normal and repeat of the leader code read from the memory unit 11, and high and low of the custom code and the data code. Set in advance. In addition, the user selects a command code for a key value selected by the user and outputs data set through the general-purpose input / output unit 21 through the LED for transmitting / receiving the infrared transceiver 20. At this time, the remote control model stored in the memory unit 11 may be a home appliance such as a television (TV), audio, and the like.

FIG. 6 is a block diagram of the infrared remote control unit shown in FIG. 5.

As shown in FIG. 6, the infrared remote control unit 22 according to the present invention transmits a light emitting diode (LED) when a remote control signal is input from the key input unit 12 to the control unit 14 through the general-purpose input / output unit 21. And a transmission mode selecting section 22a for selecting a signal, and an output level converting section 22b for increasing an output level according to an infrared remote control rather than transmitting and receiving data using infrared communication IrDA. In other words, in case of using infrared communication (IrDA), in case of IrDA standard version 1.0, the application distance is about 1 meter (meter), but in order to use for home appliances, etc., the application distance is more than 5 meters, so the output level should be increased.

7 is a view showing a state of use of the mobile phone with an infrared remote control apparatus according to the present invention.

As shown in FIG. 7, a method of using a mobile phone with an infrared remote control device according to the present invention shows a remote control state between the mobile phone 31 and the television 32, which is the same as when using a general remote controller (remote control). It shows how to use it.

FIG. 8 is a flowchart for explaining a remote control method using a radio frequency of the mobile phone shown in FIG. 5.

A remote control method using a radio frequency of a mobile phone according to the present invention will be described with reference to FIGS. 8 and 5, and a case of controlling a car and a garage door using a radio frequency (RF) will be described.

When an arbitrary signal is input through the key input unit 12 of the cellular phone, the controller 14 determines whether the input signal is in a remote control mode using a radio frequency (S11).

Determination result (S11) If not in the remote control mode using the radio frequency information transmission mode through the infrared communication (IrDA) will be described with reference to FIG.

However, in the determination result (S11), if the remote control mode using the radio frequency is switched to the remote control mode using the radio frequency (S12).

Subsequently, it is determined whether the input signal is the vehicle remote control mode from the remote control mode using the radio frequency (S13).

If it is determined in step S13 that the vehicle remote control mode, the vehicle remote start signal transmission and control (S14).

However, in the determination result (S13), it is determined whether the garage door control mode is applied when the vehicle is not in the remote control mode (S15).

The determination result (S15) is looped to the step (S13) to determine whether the vehicle remote control mode, if not the garage door control mode.

However, if the determination result (S15) the garage door control mode proceeds to the garage door control mode (S16).

Next, it is determined whether the garage door control mode is the garage door opening mode (S17).

As a result of the determination (S17) in the garage door opening mode, the garage door opening signal is transmitted to the antenna through the switch unit 17, and the garage door opening signal is transmitted to the garage door through the antenna (S18).

However, if the determination result (S17) is not the garage door opening mode, the garage door closing signal is transmitted to the antenna through the switch unit 17, the garage door closing signal is transmitted to the garage door through the antenna (S19).

Subsequently, it is determined whether the remote control mode end key (button) using the radio frequency is input after the vehicle remote start signal transmission and control and after the garage door open or close mode (S20).

If it is determined that the remote control mode exit key is input (S20), the remote control using the radio frequency ends.

However, if it is determined that the remote control mode end key is not input (S20), the process loops to step S13 to determine whether the vehicle remote control mode is input.

FIG. 9 is a flowchart for explaining a remote control method and a data communication method using infrared communication (IrDA) of the mobile phone shown in FIG. 5.

A remote control method and a data communication method using an infrared communication (IrDA) of a mobile phone according to the present invention will be described with reference to FIGS. 9 and 5, and an information transmission mode (remote control or data communication) using infrared communication will be described. .

If the signal input through the key input unit 12 of the mobile phone is not in the remote control mode using the radio frequency (RF) to execute the information transmission mode using infrared communication (IrDA) (S21).

Subsequently, the controller 14 determines whether to select an infrared remote controller (infrared remote controller 22) or an infrared communication (IrDA) modulator and demodulator 19, among information transfer modes, according to the input signal from the key input unit 12. In step S22).

As a result of the determination, if the signal input from the key input unit 12 is an infrared remote control mode, infrared remote control is performed through the infrared remote control unit 22, and thus, first, a light emitting diode (LED) of the infrared transceiver is selected (S23).

Subsequently, the GPIO 21 for remote control infrared transmission is selected to determine a path of the control command and data to be transmitted, and the signal generated from the key input unit 12 is transferred to the infrared remote control unit (13). 22) to be input (S24).

Next, a format of a leader, a custom, and a data code according to an infrared controller (remote control) control model and a manufacturer of a product to be remotely controlled is selected (S25). That is, in the memory unit 11, which contains a control model of an infrared controller (to be remotely controlled) and a custom and data code format according to a manufacturer, and a pre-written format such as a signal period thereof, the controller 14 controls the corresponding model. Read the information.

Subsequently, the user selects a command code for a key value selected through the key input unit 12 (S26).

Then, the output level is converted according to the product to be remotely controlled (S27). In other words, increase the output level if the product to be remotely controlled is far.

Then, the function corresponding to the format of the output signal is called (Call) and output to the infrared transceiver 20 through the general-purpose input and output unit 21 (S28).

However, as a result of the determination, when the signal input from the key input unit 12 is an infrared communication (IrDA) mode, information exchange is performed through the infrared communication (IrDA) modulator and the demodulator 19. The light emitting diode LED is selected as an infrared communication mode (S30).

Subsequently, information exchange is performed through an infrared standard (S31).

Subsequently, it is determined whether the infrared communication mode end key is input, and when the infrared communication mode end key is input, the process ends. Otherwise, it waits in the infrared communication mode.

According to the present invention as described above, by using a mobile phone equipped with an infrared module (IrDA), as well as remote control using data communication or wireless frequency using infrared as well as infrared remote control for home appliances such as TV or audio equipment There is an effect that can increase the convenience of the user.

Claims (5)

A key input consisting of a letter key, a function key or a volume key, A memory unit for storing key data and signal formats necessary for remote control of the controlled device; A control unit which receives an input mode of the key input unit and determines whether the input mode is a remote control mode using a radio frequency, a data communication mode using an infrared communication method, or a remote control mode using an infrared communication method; A general-purpose input / output unit (GPIO) for performing data transmission processing when the input mode received by the controller is a remote control mode using an infrared communication method; An infrared remote control unit for outputting an electrical signal to output an infrared remote control signal to the control target device according to the signal output from the general-purpose input / output unit; Mobile phone having a remote control device comprising an infrared transceiver for converting and outputting an electrical signal output from the infrared remote controller to an optical signal. 2. The apparatus of claim 1, further comprising: a frequency converter for outputting a corresponding frequency to the transmitter when the input mode received by the controller is a remote control mode using a radio frequency, and a radio signal according to the frequency output from the frequency converter. The transmitter further includes an output unit, an antenna for transmitting and receiving signals having different frequencies according to the output of the transmitter unit, and a switch unit for selecting the antenna. Universal asynchronous transmission and reception unit (UART) for data transmission processing according to the case that the input mode received by the control unit is a data communication mode using an infrared communication method, and modulates the signal output from the universal asynchronous transmission and reception unit to transmit to the infrared transceiver Or an infrared modulator and a demodulator for decoding the data transmitted from the infrared transceiver and transmitting the decoded data to the general purpose asynchronous transceiver; Converts and outputs an electrical signal output from the infrared communication modulator and demodulator and the infrared remote controller into an optical signal, or receives an optical signal input from the outside and converts it into an electrical signal, and then converts the electrical signal to the infrared communication modulator and demodulator Mobile phone having a remote control device characterized in that it further comprises an infrared transceiver for transmitting. The remote control apparatus according to claim 1, wherein the infrared remote control unit comprises a transmission mode selection unit for selecting a transmitting light emitting diode in the infrared transmitting and receiving unit, and an output level converting unit for adjusting an output level of the transmitting light emitting diode. Mobile phone equipped with. In a mobile phone having a memory unit for storing key data and signal format required for remote control of the controlled device, Determining whether the input signal is in a remote control mode using radio frequency; Determining whether the input signal is a remote control mode using an infrared communication method or an infrared communication method unless the remote control mode using a radio frequency is used; Calling the key data and signal format of the remote control target device in the memory unit in the remote control mode using the infrared communication method; And outputting the called key data and the signal format to the control target device through an infrared communication method. The method of claim 4, further comprising adjusting an output voltage level according to a distance of the remote control controlling device when outputting the called key data and signal format to the remote control controlling device through an infrared communication method. Remote control method of a mobile phone having a remote control device, characterized in that made.