KR100483050B1 - Mobile telecommunication terminal with television receiving function - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to mobile communication terminals such as IMT 2000 terminals, PCS terminals, and the like. Particularly, some high-performance circuits of a signal processing unit that can receive TV broadcasts to mobile communication terminals such as IMT-2000 terminals and process communication signals It is an object of the present invention to provide a mobile communication terminal having a TV broadcast receiving function to selectively process TV broadcast signals.

The present invention provides a mobile communication terminal for performing mobile communication including a communication antenna (ANT2), comprising: a key input unit (21); TV broadcast antenna ANT1; Up-converter 22; A first switch SW1; A signal processor 23; A second switch SW2; A first down converter 24; Demodulation section 25; Control unit 28; A screen display unit 29; And an audio output unit 30.

According to the present invention, a mobile communication terminal having a TV broadcast reception function can be manufactured in a small size, power consumption can be reduced, and high-performance signal processing is possible, and the TV broadcast can be received regardless of place and time. There is an effect that you can watch.

Description

Mobile communication terminal with TV broadcasting reception function {MOBILE TELECOMMUNICATION TERMINAL WITH TELEVISION RECEIVING FUNCTION}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to mobile communication terminals such as IMT 2000 terminals, PCS terminals, and the like. Particularly, some high-performance circuits of signal processing units for receiving TV broadcasts and processing communication signals to mobile communication terminals such as IMT-2000 terminals Can selectively process TV broadcast signals, making them compact, enabling low power consumption, enabling high-performance signal processing, and allowing users to receive and watch TV broadcasts anywhere and anytime. A mobile communication terminal having a TV broadcast reception function.

In general, a mobile communication terminal processes a narrow band high frequency signal of approximately 1.8 GHz to 2 GHz, while a TV tuner must process a wide band signal of approximately 40 MHz to 900 MHz.

In recent years, research and development of the technology has been in progress along with the standardization of the IMT-2000 technology called the next generation mobile communication technology that can provide voice, data and video services. In the IMT-2000 terminal to which the IMT-2000 technology is applied, the multimedia service uses about 2 GHz (uplink frequency band: 1920 to 1980 MHz, downlink frequency band: 2110 to 2170 MHz), which is a worldwide common frequency band allocated by the ITU. The bandwidth per channel, which determines the data rate for provision, is allocated at approximately 5MHz, and the data rate per channel is approximately 144Kbps-2Mbps, which can transmit not only voice, data, but also video. And voice vocoder related to call quality has adopted variable vocoder up to 8 ~ 32Kbps to maintain the quality of wired network level.

The configuration of a mobile communication terminal such as an IMT-2000 terminal is illustrated in FIG. 1. Referring to FIG. 1, a conventional mobile communication terminal, that is, an IMT-2000 terminal, may include a key input unit 11 for inputting a key related to communication. A signal processor 12 for converting an RF signal received through the antenna ANT into an intermediate frequency signal, or converting an intermediate frequency signal including transmission data into an RF signal and outputting the RF signal to the antenna ANT; A baseband analog unit 13 for converting an analog intermediate frequency signal from the signal processing unit 12 into a digital signal and converting a digital signal to be transmitted into an analog signal, and a key input of the key input unit 11, Controls the transmission and reception of audio, data and video, restores audio, data and video from the signal from the baseband analog unit 13 to control output to the peripheral device, and transmits audio and data. A mobile station modem unit 14 for controlling transmission by providing an image signal to the baseband analog unit 13, an image display unit 15 for outputting text and screens from the mobile station modem unit 14; And a voice input unit 17 for inputting voice to the mobile station modem unit 14 and a voice output unit 16 for outputting voice from the mobile station modem unit 14.

By the way, although the IMT-2000 terminal can process a video signal, since the frequency band (40 MHz-900 MHz) and the mobile communication frequency band (1.8 GHz-2 GHz) of TV broadcasting are different from each other, the TV broadcasting is performed in such an IMT-2000 terminal. There is a problem that cannot be received.

Various types of TV tuner structures have been proposed, including a conventional dual switching tuner. However, due to the complexity of the tuner, the large power consumption, and the large number of external devices, the conventional TV tuner structure is applied to a mobile communication terminal. There is a problem that is difficult.

In addition, in order to apply to the existing mobile communication terminal system, it is easy to apply to the terminal structure, and the design cost due to additional factors for TV signal processing does not have to be large, and there is a difficulty in that the size should be designed small. Therefore, one of the most important considerations in the application of the mobile communication terminal is power consumption. When a large power consumption occurs due to the TV tuner, the usage time of the entire mobile communication terminal is shortened. There may be a problem that lowers.

In addition, when the existing tuner is applied to a mobile communication terminal as it is, the size of the mobile communication terminal is much increased due to the size of the tuner itself, which causes inconvenience to carry. In the case of implementing a TV function in a mobile communication terminal such as a PCS terminal, the size of the mobile communication terminal should not be greatly increased.

The present invention has been proposed to solve the above problems, and an object thereof is to provide TV broadcasting to a mobile communication terminal such as an IMT-2000 terminal, and some high-performance circuits of a signal processing unit for processing a communication signal are optional. By implementing to process TV broadcast signal, it is possible to make small size, lower power consumption, high performance signal processing, and TV broadcast to receive and watch TV broadcast regardless of place and time The present invention provides a mobile communication terminal having a reception function.

In order to achieve the above object of the present invention, the mobile communication terminal of the present invention

In the mobile communication terminal for performing mobile communication, including an antenna,

An up-converter configured to up-convert the frequency of the TV channel selected according to the channel selection signal among the received TV broadcast signals to a preset mobile communication frequency;

A first switch configured to select one input signal of a received communication signal and a TV broadcast signal through the up-converter according to a switching signal;

A signal processor for amplifying and filtering the signal selected by the first switch;

A second switch for selecting one of a first signal path and a second signal path to provide an output signal of the signal processor according to the switching signal;

A first down converter for converting a signal through the first signal path selected by the second switch into a predetermined TV broadcasting intermediate frequency signal;

A demodulator for demodulating the TV broadcast intermediate frequency signal from the first downconverter and restoring the video and audio signals of the TV broadcast; And

Providing the switching signal when selecting a TV broadcast, providing a channel selection signal and a TV intermediate frequency selection signal corresponding to a channel selection key input through the key input unit, and video and audio of the TV broadcast signal input from the demodulation unit. Control to control the output

Characterized in having a.

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

In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

2 is a block diagram of a mobile communication terminal according to the present invention.

2, a mobile communication terminal according to the present invention is a mobile communication terminal for performing mobile communication, including a communication antenna (ANT2), which includes a plurality of calls for watching TV broadcasts and watching TV broadcasts, including channel selection and channel selection. The frequency of the TV channel selected according to the channel selection signal SCH among the key input unit 21, the TV broadcasting antenna ANT1, and the TV broadcasting signal through the TV broadcasting antenna ANT1 is set in advance. An up-converter 22 for up-converting to a mobile communication frequency, and an input signal of one of a communication signal through the communication antenna ANT2 and a TV broadcast signal through the up-converter 22A according to the switching signal SSW. A first switch SW1 to be selected, a signal processor 23 for amplifying and filtering a signal selected by the first switch SW1, and a first signal path for providing an output signal of the signal processor 23 ( SPH1) or second signal path (SPH2) TV set in advance through the second switch (SW2) for selecting one path of the switching signal (SSW) and the signal through the first signal path (SPH1) selected by the second switch (SW2) Demodulating the first down-converter 24 for converting the frequency signal to the TVIF and the intermediate frequency signal TVIF from the first down-converter 24 to restore the video and audio signals of the TV broadcast. A demodulation unit 25 and the switching signal SSW when the TV broadcasting viewing is selected through the key input unit 21, and a channel selection signal SCH corresponding to a channel selection key input through the key input unit 21. And a control unit 28 for providing a TV intermediate frequency selection signal (SIF) and controlling output of video and audio signals of the TV broadcast signal input from the demodulator 27, and control of the control unit 28. The screen display unit 29 for outputting a video signal of a TV broadcast, and the controller 28 And a sound output unit 30 for outputting an audio signal of the TV broadcast according to the control.

The mobile communication terminal includes a band pass filter BPF for filtering the output signal of the up-converter 22A to a predetermined band, and a second signal path SPH2 selected by the second switch SW2. The apparatus further includes a second down converter 26 for converting a signal into a preset communication intermediate frequency signal CIF and outputting the signal to the controller 28.

The up-converter 22 is a low noise amplification / gain controller 22A for low noise amplifying the TV broadcast signal through the TV broadcast antenna ANT1 and automatically adjusting its gain, and a channel selection signal of the control unit 28 ( The oscillator 22B for generating an oscillation frequency corresponding to SCH), the TV broadcast signal from the low noise amplification / gain controller 22A, and the oscillation frequency of the oscillator 22B are mixed to carry the frequency of the selected TV channel. An upmixer 22C that is upconverted to frequency and provided to the first switch SW1.

The signal processor 23 allows the amplifier 23A to amplify the signal selected by the first switch SW1 to a preset gain, and passes the signal from the amplifier 23A to a preset communication frequency band. And a band pass filter 23B.

The first down converter 24 is an amplifier 24A for amplifying a signal through a first signal path selected by the second switch SW2 to a preset gain, and the TV intermediate frequency of the controller 28. An oscillator 24B for generating an oscillation frequency corresponding to the selection signal SIF, a signal from the amplifier 24A, and an oscillation frequency of the oscillator 24B are mixed to output a preset TV broadcast signal. The demodulator 25 amplifies the first downmixer 24C for downconverting to the intermediate frequency signal TVIF, and the TV broadcasting intermediate frequency signal TVIF from the first downmixer 24C, and automatically adjusts its gain. Amplification / gain regulator 24D.

The second down converter 26 generates an oscillator 26A for generating a preset oscillation frequency, a signal through a second signal path selected by the second switch SW2, and an oscillation frequency of the oscillator 26A. And a second downmixer 26B for downconverting a signal input through the second switch SW2 to a predetermined communication intermediate frequency signal CIF by mixing the second switch SW2 and communication from the second downmixer 26B. And a band pass filter 26C which passes the intermediate frequency signal CIF to a frequency band of a preset communication intermediate frequency signal and provides the same to the controller 28.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to FIGS. 2 to 5.

First, in response to a key input through the key input unit 21 shown in FIG. 2, the control unit 28 controls an internal operation to a TV broadcast mode or a communication mode, and the control unit 28 further controls the key input unit 21. To provide the switching signal (SSW) when selecting the TV broadcast viewing through the, and also to provide the channel selection signal (SCH) and the TV intermediate frequency selection signal (SIF) according to the channel selection key through the key input unit 21 The signal flow in the TV broadcasting mode is shown in FIG. 3, and the signal flow in the communication mode is shown in FIG. 4.

Hereinafter, a TV broadcast reception process of the mobile communication terminal of the present invention will be described in detail with reference to FIGS. 2, 3, and 5.

First, when the TV broadcast mode is selected through the key input unit 21 (S51), the controller 28 of the present invention shown in FIG. 5 controls the internal operation to the TV broadcast mode. In this case, the controller 28 Provides a switching signal (SSW) so that the first and second switches (SW1, SW2) can normally process the signal of the TV broadcast, and the other channel selection signal (SCH) and TV intermediate frequency selection signal (SIF). Are provided to the up-converter 22 and the first down-converter 24, respectively.

In the TV broadcasting mode, the first switch SW1 connects the input terminal of the signal processor 23 to the up-converter 22 according to the switching signal SSW of the controller 28, and also the second switch ( SW2 connects the output terminal of the signal processor 23 to the first down-converter 24 (S52). An operation of the mobile communication terminal in the TV broadcasting mode will be described with reference to FIG. 3.

3 is a block diagram of a mobile communication terminal showing the signal flow in the TV broadcast mode.

2 and 3, when a TV broadcast signal (for example, 40 MHz to 900 MHz) through the TV broadcast antenna ANT1 is input to the upconversion unit 22, the upconversion unit 22 is the TV broadcast. The frequency of the TV channel selected according to the channel selection signal SCH among the TV broadcast signals through the antenna ANT1 is up-converted to a preset mobile communication frequency (for example, 1.8 GHz to 2 GHz) (S53).

When the operation of the up-converter 22 is described in detail, the low-noise amplification / gain controller 22A of the up-converter 22 amplifies the TV broadcast signal through the TV broadcast antenna ANT1 with low noise and The gain is automatically adjusted, and the oscillator 22B of the up-converter 22 generates an oscillation frequency corresponding to the channel selection signal SCH of the controller 28. At this time, the upmixer 22C of the up-converter 22 mixes the TV broadcast signal from the low noise amplification / gain controller 22A and the oscillation frequency of the oscillator 22B to transfer the frequency of the selected TV channel to mobile communication. Up-conversion to frequency is provided to the first switch SW1. In this case, the up-converted signal of the up-converter 22 passes through a band pass filter (BPF) set to a pass band of about 6 MHz to 20 MHz, which is preset in order to improve the band pass characteristic and the signal recovery characteristic. The band pass filter BPF may serve as a switch SW1, and removes an image signal that is a big problem for signal recovery and increases selectivity for a desired signal.

The TV signal up-converted by the up-converter 22 into the mobile communication frequency band is input to the signal processor 23 through the first switch SW1, and the signal processor 23 is connected to the first switch SW1. In more detail, the amplifier 23A of the signal processor 23 amplifies the signal selected by the first switch SW1 to a preset gain to obtain a band pass filter. Provided at 23B, the bandpass filter 23B passes the signal from the amplifier 23A to a preset communication frequency band and provides it to the second switch SW2. The output signal of the signal processor 23 is provided to the first down converter 24 after passing through the first signal path SPH1 by the second switch SW2.

As described above, in the mobile communication terminal of the present invention, the signal processor 23 is configured to process a communication signal and a TV broadcast signal in common, and the signal processor 23 is usually excellent in noise to process a mobile communication signal. Implemented to have amplification and bandpass characteristics. In the mobile communication terminal of the present invention, in the TV broadcast mode, the up-converter 22, the signal processor 23, and the first down-converter 24 perform the tuner function of the TV broadcast, and thus have excellent performance. By using the signal processor 23 in common for signal processing of communication and TV broadcast, it is possible to improve the processing performance of the TV broadcast signal, and a separate signal processor corresponding to the signal processor 23 for TV broadcast signal processing. Since there is no need to add, the power consumption can be reduced accordingly, and the size can be relatively reduced at the same time.

In addition, since the up-converter 22 and the first down-converter 24 for processing TV broadcast signals are not required to have relatively good performance, the design is simplified and easy to manufacture. Low power driving is possible.

Subsequently, the first downconverter 24 converts a signal through the first signal path SPH1 selected by the second switch SW2 into a preset TV broadcasting intermediate frequency signal TVIF. In more detail, the low noise amplifier 24A of the first downconverter 24 amplifies the signal selected by the first switch SW1 with low noise, and the oscillator of the first downconverter 24. 24B generates a preset oscillation frequency according to the TV intermediate frequency selection signal SIF of the control unit 28, wherein the first downmixer 24C is coupled with the output signal of the low noise amplifier 24A. Mixing the oscillation frequency of the oscillator 24B to down-convert the frequency (1.8GHz-2GHz) of the input signal to a predetermined TV broadcasting intermediate frequency signal (TVIF) in the frequency range of approximately 36MHz-44MHz demodulator 25 Provided by (S54).

The demodulator 25 demodulates the TV broadcast intermediate frequency signal TVIF from the first down-converter 24 to restore the video and audio signals of the TV broadcast to the controller 28 (S55). The control unit 28 controls the output of the video and audio signals of the TV signal input from the demodulator 25 so that the image of the TV broadcast is output to the screen display unit 29, the TV to the audio output unit 30 The voice of the broadcast is output (S56). The process of processing such a TV broadcast signal is repeatedly performed until the TV broadcast mode ends (S57).

Hereinafter, a communication signal receiving process of the mobile communication terminal of the present invention will be described in detail with reference to FIGS. 2 and 4.

First, when the TV broadcasting mode is not selected through the key input unit 21, the internal operation is controlled in the communication mode at all times. SW1 connects the input terminal of the signal processor 23 to the communication antenna ANT2 side, and the second switch SW2 connects the output terminal of the signal processor 23 to the second downconverter 26. The operation of the mobile communication terminal in this communication mode will be described with reference to FIG.

4 is a configuration diagram of a mobile communication terminal showing a signal flow in a communication mode.

2 and 4, a mobile communication signal (eg, 1.8 GHz to 2 GHz) through the communication antenna ANT2 is input to the signal processing unit 23 through the first switch SW1 to a preset gain. After being amplified and band-passed, the second switch SW2 is provided to the second down converter 26. The second down converter 26 converts a signal through the second switch SW1 into a communication intermediate frequency signal CIF of approximately 220 MHz.

The second down converter 26 will be described in detail. The oscillator 26A of the second down converter 26 generates a preset oscillation frequency, and the second down converter 26 generates a first oscillation frequency. The second downmixer 26B mixes the signal through the second signal path selected by the second switch SW2 and the oscillation frequency of the oscillator 26A to pre-input the signal input through the second switch SW2. Down-converts to a communication intermediate frequency signal (CIF) set in the above, and the bandpass filter 26C of the second downconverter 26 is a communication intermediate frequency signal (CIF) from the second downmixer 26B. Is passed through a predetermined band of approximately 1.25 MHz to 5 MHz and provided to the controller 28. The control unit 28 converts and demodulates the communication intermediate frequency signal CIF through the second down-converter 26 into a digital signal, and outputs the image and audio to the screen display unit 29 and the audio output unit 30, respectively. Will output

In addition, the controller 28 processes a voice signal input through the voice input unit 31 such as a microphone into a digital signal, and then converts a digital signal to be transmitted into an analog signal, and then in a transmission signal processor (not shown). The analog signal converted by the control unit 28 is converted into a communication frequency to be transmitted through the communication antenna ANT2. In this process, the mobile communication terminal can perform a voice call with the other party. Since this process is the same as the call process performed in the existing mobile communication terminal, a detailed description thereof will be omitted.

As such, the mobile communication terminal of the present invention performs frequency up-conversion of the TV broadcast signal to the 1.8GHz to 2GHz band, which is the frequency band of the PCS or IMT-2000. After the frequency conversion, the TV broadcast signal is a conventional mobile communication terminal. Since it has been converted into the frequency band of the desired TV broadcast signal can be processed using the signal processing of the mobile communication terminal. This enables a mobile communication terminal capable of watching TV.

Since the mobile communication terminal of the present invention can process enough bandwidth to enable a video service like a terminal such as a PCS and IMT-2000, it can process a TV broadcast signal including a TV broadcast tuning unit to watch a desired broadcast channel. .

As described above, the mobile communication terminal to which the present invention is applied may include a PCS terminal or an IMT-2000 terminal. In addition, the present invention may receive a video like a PCS terminal as well as an IMT-2000 terminal. Can be applied to the system.

According to the present invention as described above, the present invention is implemented in the mobile communication terminal such as the IMT 2000 terminal, PCS terminal, such that some high-performance circuit of the signal processing unit for processing the communication signal selectively processes the TV broadcast signal, TV A mobile communication terminal having a broadcast reception function can be manufactured in a small size, power consumption can be reduced, and high-performance signal processing can be performed, and TV broadcasting can be received and viewed regardless of place and time.

The above description is only a description of specific embodiments of the present invention, and the present invention is not limited to these specific embodiments, and various changes and modifications of the configuration are possible from the above-described specific embodiments of the present invention. It will be apparent to those skilled in the art to which the present invention pertains.

1 is a schematic diagram of a conventional mobile communication terminal.

2 is a block diagram of a mobile communication terminal according to the present invention.

3 is a block diagram of a mobile communication terminal showing the signal flow in the TV broadcast mode.

4 is a configuration diagram of a mobile communication terminal showing a signal flow in a communication mode.

5 is a flowchart showing a signal processing procedure in the TV broadcasting mode according to the present invention.

Explanation of symbols on the main parts of the drawings

21: key input unit 22: up-conversion unit

23: signal processor 24: first down converter

25: demodulation unit 26: second down converter

28: control unit 29: screen display unit

30: voice output unit 31: voice input unit

BPF: Filter SW1. SW2: first and second switch

Claims (7)

In the mobile communication terminal for performing mobile communication, including an antenna, An up-conversion unit 22 for up-converting the frequency of the TV channel selected according to the channel selection signal SCH among the received TV broadcasting signals to a preset mobile communication frequency; A first switch (SW1) for selecting one input signal of a received communication signal and a TV broadcast signal through the up-converter (22A) according to a switching signal (SSW); A signal processor (23) for amplifying and filtering the signal selected by the first switch (SW1); A second switch (SW2) for selecting one of the first signal path (SPH1) or the second signal path (SPH2) for providing the output signal of the signal processor (23) according to the switching signal (SSW); A first down converter 24 for converting a signal through the first signal path SPH1 selected by the second switch SW2 into a preset TV broadcasting intermediate frequency signal TVIF; A demodulator (25) for demodulating the TV broadcast intermediate frequency signal (TVIF) from the first downconverter (24) to restore the video and audio signals of the TV broadcast; And The switching signal SSW is provided when selecting a TV broadcast, and a channel selection signal SCH and a TV intermediate frequency selection signal SIF corresponding to a channel selection key input through the key input unit 21 are provided. Control unit 28 for controlling the video and audio output of the TV broadcast signal input from the demodulator 27 Mobile communication terminal having a TV receiving function, characterized in that it comprises a. The method of claim 1, wherein the mobile communication terminal And a band pass filter (BPF) for filtering the output signal of the up-converter (22A) to a predetermined band. The method of claim 1, wherein the mobile communication terminal The second down converter 26 converts a signal through the second signal path SPH2 selected by the second switch SW2 into a preset communication intermediate frequency signal CIF and outputs the signal to the controller 28. Mobile communication terminal having a TV receiving function, characterized in that it further comprises. The method of claim 1, wherein the up-converter 22 A low noise amplification / gain controller 22A for low noise amplifying the received TV broadcast signal and automatically adjusting its gain; An oscillator 22B for generating an oscillation frequency corresponding to the channel selection signal SCH of the controller 28; And Up-converting the frequency of the selected TV channel to the mobile communication frequency by mixing the TV broadcast signal from the low noise amplification / gain controller 22A with the oscillation frequency of the oscillator 22B and providing it to the first switch SW1. Mixer (22C) Mobile communication terminal having a TV receiving function, comprising a. The method of claim 1, wherein the signal processor 23 An amplifier (23A) for amplifying the signal selected by the first switch (SW1) to a preset gain; And Band pass filter 23B for passing the signal from the amplifier 23A to a predetermined communication frequency band. Mobile communication terminal having a TV receiving function, comprising a. The method of claim 1, wherein the first down converter 24 An amplifier (24A) for amplifying the signal through the first signal path selected by the second switch (SW2) to a preset gain; An oscillator 24B for generating an oscillation frequency corresponding to the TV intermediate frequency selection signal SIF of the control unit 28; A first downmixer (24C) which mixes the signal from the amplifier (24A) with the oscillation frequency of the oscillator (24B) and downconverts the output signal of the amplifier to a preset TV broadcasting intermediate frequency signal (TVIF); And An amplification / gain regulator 24D that amplifies the TV broadcasting intermediate frequency signal TVIF from the first downmixer 24C and automatically adjusts its gain to provide to the demodulator 25. Mobile communication terminal having a TV receiving function, comprising a. The method of claim 3, wherein the second down converter 26 An oscillator 26A for generating a preset oscillation frequency; The signal input through the second switch SW2 is mixed with the signal through the second signal path selected by the second switch SW2 and the oscillation frequency of the oscillator 26A is set in advance. A second downmixer 26B downconverting to CIF); And Band pass filter 26C which passes the communication intermediate frequency signal CIF from the second downmixer 26B to a frequency band of a preset communication intermediate frequency signal and provides it to the controller 28. Mobile communication terminal having a TV receiving function, comprising a.