KR200404176Y1 - DMB Receiving Apparatus - Google Patents

Abstract

The present invention relates to a DMB receiving terminal which is connected to a device such as a desktop PC or a notebook PC by using a universal serial bus (USB) port and provides a DMB (Digital Multimedia Broadcasting) broadcasting service to a user. The terminal may include a DMB receiving module for extracting a frequency signal of a DMB broadcasting channel selected by a user and converting the RF signal into a digital signal and an interface unit for relaying the digital signal to an external device.

Description

DMB reception terminal {DMB Receiving Apparatus}

The present invention relates to a DMB receiving terminal, and more specifically, to a device such as a desktop PC or a notebook PC using a USB (Universal Serial Bus) port to provide a DMB (Digital Multimedia Broadcasting) broadcasting service to a user. It is about.

DMB service is a service that can receive a high-quality broadcast service on the go through various types of portable terminals available to consumers. Various types of data services are possible, and added value is expected in various fields such as multimedia technology and communication transmission technology according to DMB service development. The Korea Broadcasting Commission defines DMB as a 'Digital Multimedia Broadcasting that provides CD-level sound quality and data or video services, and provides excellent fixed and mobile reception quality.' Separated by DMB.

Terrestrial DMB uses only the network of the terrestrial network and uses frequencies corresponding to 174-216 MHz (42 MHz). This frequency range corresponds to over-the-air TV channels 7-13. Using this frequency domain, 18 CD-level audio channels can be obtained at a frequency of 6 MHz corresponding to one TV channel.

Satellite DMB will provide services using satellite networks and Gap Fillers. Satellite DMB uses frequencies from 2,605 to 2,655 MHz (50 MHz). It is possible to provide 10 or more video channels using this frequency domain.

Satellite DAB (Digital Audio Broadcasting), on the other hand, defines a digitally produced audio program as a radio communication service that transmits directly to fixed, mobile and portable ground stations via one or more space stations. Satellite DAB is a next-generation radio service that provides CD-level sound quality, various data services, two-way interactivity, and excellent mobile reception quality against the background of digitization of voice broadcasting and shortage of existing AM and FM frequency resources. In conclusion, satellite DAB is a technology that provides radio service to users in the same way as DMB. In the present invention, the DMB receiving terminal using the DMB technology will be described as an embodiment, but the same may be applied to the DAB.

However, the DMB receiving terminal currently commercially released has the following problems.

First, there is a difficulty in spreading the spread due to the high price of DMB receiving terminals. A commercially available DMB receiving terminal requires not only a display unit and a speaker for outputting images and sounds, but also an antenna, a tuner, a decoder, and the like, all in one terminal. In particular, in order to guarantee QoS when watching high quality video, the display unit must maintain a constant size and quality. Therefore, the price of DMB terminals is very high and there is a problem of sluggish distribution in the early stage of broadcasting service. Second, in order to receive DMB service, the user must purchase and carry a separate dedicated DMB receiving terminal in addition to the existing portable personal multimedia processing terminal devices (HP, N-PC, PDA, PMP, Game, etc.). Because of the cost and the hassle of carrying has a very big problem.

Therefore, the present invention is intended to solve the problems of the DMB receiving dedicated terminal, the purpose of the present invention is a USB port for multimedia processing devices (hereinafter referred to as "external device"), such as desktop PCs, notebook PCs that are prevalent By connecting only the optimized DMB broadcast receiving module using the system so that the entire system can act as a single terminal, converts the RF signal received from the antenna into a digital multimedia signal that can be transmitted to the USB port and transmits it to the external device. By providing a DMB receiving terminal for allowing the external device to play a video.

In order to achieve the above object, the DMB receiving terminal receives a radio frequency (RF) signal, extracts only a frequency signal of a digital multimedia broadcasting (DMB) broadcasting channel selected by a user, and converts the digital signal into a digital signal for transmission to a USB port. It comprises a DMB receiving module and an interface unit for relaying the digital multimedia signal received from the DMB receiving module to an external device. Hereinafter, the configuration and operation of the DMB receiving terminal according to an embodiment of the present invention Preferred embodiments will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components even though they are shown in different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known configuration or function may obscure the subject matter of the present invention, the detailed description thereof will be omitted.

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1 is a block diagram showing the internal structure of an embodiment of a DMB receiving terminal according to the present invention. With reference to Figure 1 will be described with respect to the configuration of the DMB receiving terminal 100 according to an embodiment of the present invention. As shown in FIG. 1, the DMB receiving terminal 100 may be largely comprised of a DMB receiving module 110, an interface unit 120, and a controller 130.

The DMB receiving module 110 is an element that receives the RF signal and extracts only the frequency signal of the DMB broadcasting channel selected by the user. The DMB receiving module 110 may be composed of an antenna 111, a tuner 112, an RF module 113, and a baseband processor 114. Hereinafter, each subcomponent of the DMB receiving module 110 will be described.

In general, an antenna is defined as a device for transmitting and receiving electromagnetic waves present in the air. The antenna 111 of the present invention receives an RF signal for a DMB service and transmits the RF signal to the tuner 112.

The tuner is a device for extracting only a signal of a frequency to be received. The tuner 112 of the present invention extracts only an RF signal of a broadcast channel frequency desired by a user from the RF signal received from the antenna 111.

The tuner 112 is connected to the antenna 111 and the RF module 113, and extracts only an RF signal having a frequency corresponding to a channel selected by a user from the RF signal received from the antenna 111 and the RF module 113. To pass.

The RF module 113 is a component that converts the RF signal received from the tuner 112 into an intermediate frequency signal, that is, an IF signal.

Let's take a closer look at the IF signal. The intermediate frequency refers to a frequency obtained by mixing a local oscillator output and a receiving frequency in a superheterodyne scheme, which is a difference between the frequency of the input wave and the local oscillation frequency. In order to prevent crosstalk and simplify the amplification circuit, a superheterodyne scheme in which a received frequency is first converted to an intermediate frequency and then demodulated is used in order to prevent crosstalk and simplify the amplification circuit. The DMB receiving terminal according to the present invention does not necessarily have to use a superheterodyne scheme, so it is not necessary to necessarily include an RF module for converting to an IF signal. However, it is preferable to include an RF module in order to configure a simple and efficient DMB receiving terminal.

The RF module 113 is connected to the tuner 112 and the baseband processor 114, and converts the RF signal received from the tuner 112 into an IF signal and transmits the converted RF signal to the baseband processor 114.

The baseband processor 114 converts the intermediate frequency signal input from the RF module 113 into a digital signal that can be transmitted using a USB port. In the present invention, the digital signal is referred to as a digital multimedia signal. The digital multimedia signal includes multimedia data and a control signal, wherein the multimedia data included in the digital multimedia signal is data that has not been decoded yet. The baseband processor 114 transmits the converted digital signal to the interface unit 120.

The interface unit 120 transmits the digital multimedia signal received from the DMB receiving module 110 to the external device 200. Of course, a signal for controlling the function of the DMB receiving terminal 100 may also be transmitted from the external device 200 through the interface unit 120. In addition, power may be supplied from the external device 200 to the DMB receiving terminal 100 through the interface unit 120.

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In particular, the interface unit 120 may be a universal serial bus (USB) port generally installed in a desktop PC, a notebook PC, or the like. In the case of using the USB port looks at the function of the interface unit 120 according to the present embodiment.

First, look at the appearance of the plugs on both ends of the USB cable. The standard USB cable consists of a type A plug to the host and a type B plug to the USB device. The DMB receiving terminal 100 according to the present invention may be configured as a stick-type USB device. In this case, the DMB receiving terminal 100 may be directly connected to the external device 200 without a separate USB cable including an A plug.

Let's take a look at the process of transferring data through the USB port. A USB cable is V _BUS, D _+, D _- will be written with a four wire strands, GND. Of these, D ₊ and D _- are devices that exchange data between a USB host and a USB device. On the other hand, V _BUS and GND act as a path to exchange power between the USB host and the USB devices. The DMB receiving terminal 100 may transmit digital multimedia data to the external device 200 using D ₊ , D ₋ lines. Of course, a signal for controlling the function of the DMB receiving terminal 100 may also be transmitted from the external device 200 using the D ₊ and D ₋ lines. In addition, the DMB receiving terminal 100 may receive power from the external device 200 through the lines of V _BUS and GND of the USB port.

The controller 130 not only controls the overall data flow of the DMB receiving terminal 100, but also is a component corresponding to a central processing unit for driving each function of the DMB receiving terminal 100. The controller 130 may be classified into a data flow control module (not shown), a channel control module (not shown), a volume control module (not shown), a resolution control module (not shown), and the like.

The controller 130 may include a data flow control module (not shown) to control the flow of data of the DMB receiving terminal 100. In order for the user to watch the DMB, the DMB receiving terminal 100 should receive the RF signal stably, convert the RF signal into a digital signal for transmission to the USB port, and transmit it to the external device 200. To this end, the data flow control module supplies a clock (not shown) and the like to the antenna 111, the tuner 112, the RF module 113, and the baseband processor 114 to synchronize the components to synchronize the data. You have control to make the flow stable. As described above, a method of synchronizing each component using a clock is a well-known technique, and thus description thereof is omitted.

In addition, the controller 130 may include a channel control module, a volume control module, and a resolution control module to provide functions such as channel selection, volume size control, and resolution control. For example, such a module controls the components of the DMB receiving module 110 and the interface unit 120 to control the functions of the DMB receiving terminal 100 described above. For example, when the user changes the channel being watched, the channel control module controls the tuner 112 of the DMB receiving module 110 to extract only the RF signal having the frequency of the channel desired by the user. The volume control module performs volume control by adjusting the amplification factor of the amplifier, and the resolution control module may be achieved by converting a sampling rate of the signal. Such channel, volume, and resolution control related art will be apparent to those skilled in the art, and thus a detailed description thereof will be omitted. Hereinafter, an external device 200 connected with the DMB receiving terminal 100 according to an embodiment of the present invention will be described. The external device 200 is an element that processes audio / video decoding of the digital multimedia signal received from the DMB receiving device. In addition, the external device 200 decodes the digital signal and outputs video and audio so that a user can watch DMB.

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In addition, when the user wants to control the function of the DMB receiving apparatus, the external device 200 may output a control signal corresponding to the operation of the user. The user may control the function of the DMB receiving terminal 100 according to the present invention through various input means (keyboard, mouse, keypad, etc.) of the external device 200 without manipulating the DMB receiving terminal 100. The external device 200 may be composed of at least one device capable of playing a video such as a desktop PC, a notebook PC, a personal digital assistant (PDA) or a portable multimedia player (PMP). Are described together with the accompanying drawings. This is only illustrative of the preferred embodiment of the present invention, but not intended to limit the present invention. The scope of protection of the present invention shall be interpreted by the following claims, and all technical ideas within the scope equivalent thereto shall be construed as being included in the scope of the present invention.

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Since the DMB receiving terminal according to the present invention does not require an A / V decoder, a display unit, and a speaker unit, the portable terminal is small in size compared to a conventional terminal, and thus can be easily carried, and requires no decoder, display unit, or speaker unit, and consumes less power. It has the advantage of being able to be powered from the laptop PC via the USB port.

1 is a block diagram of a DMB receiving apparatus according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100: DMB receiving terminal

110: DMB receiving module

111: antenna

112: tuner

113: RF Module

114: baseband processor

120: interface unit

130: control unit

200: external device

Claims (5)

In the device for receiving DMB (Digital Multimedia Broadcasting), A DMB receiving module which receives an RF signal, extracts a frequency signal of a DMB broadcasting channel selected by a user, converts the signal into a digital signal, and converts the signal into a digital multimedia signal; DMB receiving terminal including an interface unit for relaying the digital multimedia signal received from the DMB receiving module to an external device. The method of claim 1, The interface unit is a DMB receiving terminal, characterized in that the USB port. The method according to claim 1 or 2, The external device is a DMB receiving terminal, characterized in that for decoding the digital multimedia signal received from the DMB receiving module. The method of claim 3, The external device is at least one of a desktop PC, a notebook PC, a personal digital assistant (PDA) or a portable multimedia player (PMP) capable of playing a video. The method according to claim 1 or 2, And a control unit for receiving a control signal relating to a DMB related operation including channel selection, volume adjustment, and resolution adjustment from the external device, and controlling the operation of the DMB receiving module and the interface unit.