KR100365731B1 - Mobile communication terninal able to local area radio frequency communication - Google Patents

Abstract

The present invention relates to a mobile communication terminal capable of short-range wireless communication, which enables a mobile communication terminal to be used as a 1: 1 short-range wireless communication terminal, and processes voice and data signals so that the mobile communication terminal can operate for mobile communication. PLL RF / IF unit for generating a local oscillation frequency for the intermediate frequency for using, and using the generated local oscillation frequency to convert the voice and data signal to be transmitted from the mobile communication terminal to RF signal and radiate through the antenna, The RF unit converts the voice and data signals received by the mobile communication terminal into the IF signal, and controls the operation of the RF unit, controls the operation of the mode conversion switch, and enables the mobile communication terminal to operate as a short-range wireless communication terminal. MSM for controlling the operation of the short-range wireless communication unit, and the mobile communication terminal according to the switching control signal of the MSM The voice signal is changed using a mode conversion switch for converting a use mode, a divider for generating a local oscillation frequency for short range wireless communication by dividing the generated local oscillation frequency, and a local oscillation frequency for short range wireless communication generated at a divider. And a short range wireless communication unit for generating a carrier frequency for demodulating and demodulating and demodulating a voice signal through a frequency modulation method using the carrier frequency to perform 1: 1 short range wireless communication to a mobile communication terminal. do.

Description

Mobile communication terminal capable of near field communication {Mobile communication terninal able to local area radio frequency communication}

The present invention relates to a mobile communication terminal capable of short-range wireless communication, and in particular, to implement a frequency modulation method using a phase locked loop (PLL) and a mobile station model (MSM) inside the mobile communication terminal, The present invention relates to a mobile communication terminal capable of short-range wireless communication in which a mobile communication terminal can be used as a 1: 1 short-range wireless communication terminal by modulating / demodulating a voice signal.

In general, a mobile communication terminal is a device that enables a user to make a call while moving in a mobile communication system such as a personal communication service (PCS) or a digital cellular system (DCS) using a code division multiple access (CDMA) method. Through a base station, a control station, and a switching station, voice signals are transmitted and received between the mobile communication terminals as well as between the mobile communication terminal and the fixed terminal.

As described above, the conventional mobile communication terminal is used only as a terminal for performing a voice and data communication function through a base station, a control station, and an exchange station in a mobile communication system, and cannot be used for other purposes.

Accordingly, although the mobile communication terminal is used as a short-range wireless communication terminal using an infrared sensor in the related art, when there is an obstacle between the mobile communication terminals when using the infrared sensor, it is difficult to transmit and receive a voice signal.

The present invention has been made to solve the above problems, and an object thereof is to implement a frequency modulation method using a PLL and an MSM in a mobile communication terminal, and to change / demodulate a voice signal and a mode conversion switch according to the frequency modulation method. Provides a mobile communication terminal capable of short-range wireless communication that can be used as a mobile communication terminal for mobile communication, and when necessary, a short-range wireless communication terminal for 1: 1 short-range wireless communication. There is.

1 is a block diagram of a mobile communication terminal capable of short-range wireless communication according to the present invention;

FIG. 2 is a block diagram of a transmitter in the short range wireless communication unit of FIG. 1;

3 is a block diagram illustrating a receiver in the short range wireless communication unit of FIG. 1.

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

10: PLL RF / IF section 20: RF section

30: MSM 40: mode conversion switch

50: frequency divider 60: short-range wireless communication unit

71: pre-emphasis circuit portion 72: clipper circuit portion

73: audible frequency amplifier 74,82: carrier frequency oscillator

75: modulation circuit portion 76,81: RF circuit portion

83: demodulation circuit section 84: amplitude limiter

85: frequency discriminator 86: DM Emphasis circuit

87: low frequency amplifier 88: squelch circuit

A mobile communication terminal capable of short-range wireless communication of the present invention for achieving the above object, generates a local oscillation frequency for the intermediate frequency for processing voice and data signals so that the mobile communication terminal can operate for mobile communication Using the PLL RF / IF unit and the local oscillation frequency generated by the PLL RF / IF unit, the voice and data signals to be transmitted from the mobile communication terminal are converted into RF signals and radiated through the antenna, and the mobile communication terminal through the antenna. RF unit for converting the voice and data signals received to the IF signal, and controls the overall operation of the RF unit, controlling the switching operation of the mode conversion switch, the mobile communication terminal to operate as a short-range wireless terminal MSM for controlling the operation of the wireless communication unit and the mobile communication by switching operation according to the switching control signal of the MSM A mode conversion switch for converting a usage mode of the terminal, a divider for generating a local oscillation frequency for short range wireless communication by dividing a local oscillation frequency generated in the PLL RF / IF unit, and a local for short range wireless communication generated in the divider Generate a carrier frequency for modulating / demodulating a voice signal using an oscillation frequency, and performing 1: 1 short-range wireless communication to a mobile communication terminal by modulating / demodulating a voice signal using a frequency modulation method using the carrier frequency. It is characterized by consisting of a short-range wireless communication unit.

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration and operation of a mobile communication terminal capable of short-range wireless communication according to the present invention.

1 is a block diagram of a mobile communication terminal capable of short-range wireless communication according to the present invention, which generates a local oscillation frequency for an intermediate frequency for processing voice and data signals so that the mobile communication terminal can operate for mobile communication. Using the PLL RF / IF unit 10 and the local oscillation frequency generated by the PLL RF / IF unit 10, converts the voice and data signals to be transmitted from the mobile communication terminal into RF signals and radiates them through an antenna. RF unit 20 for converting the voice and data signals received by the mobile communication terminal to the IF signal through the antenna, and controls the overall operation of the RF unit 20, and controls the switching operation of the mode conversion switch, And a switching operation according to the switching control signal of the MSM 30 and the MSM 30 controlling the operation of the short range wireless communication unit so that the communication terminal can operate as a terminal for short range wireless communication. A mode conversion switch 40 for converting a usage mode of the mobile communication terminal and a local oscillation frequency generated by the PLL RF / IF unit 10 through a prescaler to have a frequency dynamic range of 10 MHz. A frequency divider 50 generating a local oscillation frequency for short-range wireless communication and a local frequency oscillation frequency generated in the frequency divider 50 are used to generate a carrier frequency for modulating / demodulating a voice signal. The short-range wireless communication unit 60 is configured to perform 1: 1 short-range wireless communication to the mobile communication terminal by modulating / demodulating a voice signal using a frequency modulation method using frequency.

In this case, the short range wireless communication unit 60 transmits and receives a voice signal using a frequency band of 400 MHz band.

FIG. 2 is a block diagram of a transmitter in the short range wireless communication unit 60. A pre-emphasis circuit unit 71 for amplifying a high frequency band of a voice signal and amplified by the pre-emphasis circuit unit 71 are shown in FIG. A clipper circuit portion 72 which constantly limits the amplitude of the audio signal to be inversely proportional to frequency, an audible frequency amplifier 73 that amplifies an audible frequency band of the audio signal passing through the clipper circuit portion 72, and The carrier frequency oscillator 74 generates a carrier frequency for modulating a voice signal using the local oscillation frequency for short-range wireless communication generated by the divider 50, and the carrier frequency generated by the carrier frequency oscillator 74 is used. And a modulation circuit unit 75 for modulating an audio signal passing through the audible frequency amplifier 73 into an IF signal, and converting an IF signal modulated by the modulation circuit unit 75 into an RF signal. It consists of the mode conversion switch 40 and the RF circuit unit 76 for wireless transmission through the antenna.

3 is a block diagram of a receiver in the short range wireless communication unit 60. The RF circuit unit 81 receives an RF signal input through the antenna and the mode conversion switch 40 and converts the RF signal into an IF signal. A carrier frequency oscillator 82 for generating a carrier frequency for demodulating an IF signal into a voice signal using a local oscillation frequency for short-range wireless communication generated in the period 50, and a carrier frequency generated by the carrier frequency oscillator 82 A demodulation circuit 83 for demodulating the IF signal converted by the RF circuit unit 81 into a voice signal, and an amplitude limiter for maintaining a constant amplitude imbalance of the demodulated circuit unit 83. (84), a frequency discriminator (85) for detecting a frequency change of the speech signal passing through the amplitude limiter (84) as a DC output voltage, and a high frequency of the speech signal passing through the frequency discriminator (85). De Emphasis circuit portion 86 for lowering the band to output the original audio signal, low frequency amplifier 87 for amplifying the original audio signal output from the deemphasis circuit portion 86, and receiver A squelch circuit section 88 which cuts off the operation of the audible frequency amplifier 73 in the transmitting section when the signal inputted to the predetermined voltage is below a predetermined voltage.

Referring to the operation of the mobile communication terminal capable of short-range wireless communication of the present invention configured as described above are as follows.

First, a mobile communication terminal normally operates as a terminal for mobile communication.

That is, when the PLL RF / IF unit 10 generates a local oscillation frequency for processing an audio and data signal and outputs the local oscillation frequency to the RF unit 20, the RF unit 20 generates the PLL RF / IF unit ( Using the local oscillation frequency generated in 10), the voice and data signals to be transmitted from the mobile communication terminal are converted into RF signals and radiated through the antenna, and the voice and data signals received from the mobile communication terminal through the antenna are converted into IF signals. The conversion allows the mobile communication terminal to operate for mobile communication.

At this time, the MSM 30 controls the switching operation of the mode conversion switch 40 so that the use mode of the mobile communication terminal is in a state of being converted to the mobile communication terminal mode.

On the other hand, when the mobile communication terminal is to be used as a terminal for short-range wireless communication, the MSM 30 outputs a switching control signal for mode conversion of the mobile communication terminal to the mode conversion switch 40 to the mode conversion switch 40 ) Converts the usage mode of the mobile communication terminal mode from the mobile communication terminal mode to the short-range wireless communication terminal mode.

The divider 50 divides the local oscillation frequency generated by the PLL RF / IF unit 10 through a prescaler to generate a local oscillation frequency for short range wireless communication having a frequency dynamic range of 10 MHz. Output to the communication unit 60.

Then, the short range wireless communication unit 60 generates a carrier frequency for modulating / demodulating a voice signal using a local oscillation frequency for short range wireless communication generated by the divider 50 according to the operation control of the MSM 30. In addition, the mobile communication terminal performs 1: 1 short-range wireless communication by modulating / demodulating a voice signal through a frequency modulation method using the carrier frequency.

That is, when the modulation and transmission process of the voice signal by the transmitter in the short range wireless communication unit 60 is described, the pre-emphasis circuit unit 71 amplifies a high frequency band of the voice signal to be transmitted, and then the clipper circuit unit 72 The amplitude of the amplified voice signal amplified by the pre-emphasis circuit unit 71 is constantly limited to be inversely proportional to frequency.

In this case, the pre-emphasis circuit unit 71 is a circuit unit necessary for the frequency modulation method, and the modulation degree by the frequency component is lowered during the frequency modulation, and the higher the frequency component during the demodulation, the greater the noise and worsens the signal-to-noise ratio. To prevent this from happening, the high frequency portion of the voice signal is amplified before the frequency modulation to improve the signal-to-noise ratio upon reception after the modulation.

Subsequently, the audible frequency amplifier 73 amplifies and outputs the audible frequency band of the audio signal passing through the clipper circuit portion 72 to the modulation circuit portion 75.

The carrier frequency oscillator 74 generates a carrier frequency for modulating a voice signal using a local oscillation frequency for short-range wireless communication generated by the divider 50, that is, a reference frequency of 19.68 MHz used in a mobile communication terminal. Then, it is output to the modulation circuit unit 75.

Accordingly, the modulation circuit unit 75 modulates the voice signal passing through the audible frequency amplifier 73 into an IF signal using the carrier frequency generated by the carrier frequency oscillator 74, and the RF circuit unit 76 The modulated circuit unit 75 converts the IF signal modulated into an RF signal and wirelessly transmits the RF signal through the mode conversion switch 40 and the antenna.

Next, the process of receiving and demodulating the voice signal by the receiver in the short range wireless communication unit 60 will be described. When the RF circuit unit 81 receives the RF signal input through the antenna and the mode conversion switch 40, the IF is received. The signal is converted into a signal and output to the demodulation circuit section 83.

In this case, the carrier frequency oscillator 82 generates a carrier frequency for demodulating an IF signal into a voice signal by using a local oscillation frequency for short-range wireless communication generated by the divider 50, and sends it to the demodulation circuit 83. Output

Subsequently, the demodulation circuit unit 83 demodulates the IF signal converted by the RF circuit unit 81 into a voice signal by using the carrier frequency generated by the carrier frequency oscillator 82 and through an amplitude limiter 84. The amplitude imbalance of the demodulated circuit section 83 is kept constant.

That is, the amplitude limiter 84 limits the amplitude of the audio signal to a predetermined level by removing a signal level larger than a predetermined level.

The frequency discriminator 85 then detects the frequency change of the speech signal passing through the amplitude limiter 84 as a DC output voltage, and the deemphasis circuitry 86 passes through the frequency discriminator 85. The high frequency band of one audio signal is lowered to output the original audio signal.

That is, the deemphasis circuit section 86 is a circuit section necessary for degrading the speech signal amplified by the pre-emphasis circuit section 71 in the transmitter and restoring the original speech signal.

Thereafter, the low frequency amplifier 87 amplifies the original audio signal output from the DM Emphasis circuit unit 86 and finally outputs the audio signal.

Here, the squelch circuit section 88 is a circuit section for blocking the operation of the audible frequency amplifier 73 in the transmitter section when the signal input to the receiver section is below a predetermined voltage. To prevent noise from occurring.

As described above, the present invention implements a frequency modulation method using a PLL and an MSM in a mobile communication terminal, and usually performs modulation / demodulation of a voice signal and mode conversion by a mode conversion switch according to the frequency modulation method. The mobile terminal is used as a mobile communication terminal for mobile communication, and when necessary, it can be used as a short-range wireless communication terminal for 1: 1 short-range wireless communication.

In other words, by implementing a system having two functions at the same time through a single mobile communication terminal as described above it is possible to obtain economic benefits by reducing the communication cost.

In addition, the use of the frequency modulation method makes it possible to transmit and receive voice data easily even when there is an obstacle, and also to transmit and receive at a longer distance than using an infrared sensor. The terminal can be used as a terminal for short-range wireless communication.

Claims (3)

A PLL RF / IF unit for generating a local oscillation frequency for intermediate frequencies for processing voice and data signals so that the mobile communication terminal can operate for mobile communication; The local oscillation frequency generated by the PLL RF / IF unit converts the voice and data signals to be transmitted from the mobile communication terminal into RF signals, radiates them through an antenna, and receives the voice and data signals received by the mobile communication terminal through the antenna. An RF unit for converting the signal into an IF signal, An MSM for controlling the overall operation of the RF unit, controlling a switching operation of a mode conversion switch, and controlling an operation of the short range wireless communication unit so that the mobile communication terminal can operate as a short range wireless communication terminal; A mode conversion switch for switching in accordance with the switching control signal of the MSM to switch the use mode of the mobile communication terminal; A divider for dividing the local oscillation frequency generated by the PLL RF / IF unit to generate a local oscillation frequency having a frequency dynamic range for short-range wireless communication; A carrier frequency for modulating / demodulating a voice signal is generated by using a local oscillation frequency for short-range wireless communication generated by the divider, and the voice signal is modulated / demodulated through a frequency modulation method using the carrier frequency to a mobile communication terminal. A mobile communication terminal capable of short-range wireless communication, comprising: a short-range wireless communication unit configured to perform 1: 1 short-range wireless communication. According to claim 1, wherein the short-range wireless communication unit, the transmission unit, A pre-emphasis circuit unit for amplifying a high frequency band of an audio signal, A clipper circuit unit which constantly limits the amplitude of the voice signal amplified by the pre-emphasis circuit unit to be inversely proportional to frequency; An audible frequency amplifier for amplifying an audible frequency band of the audio signal passing through the clipper circuit unit; A carrier frequency oscillator for generating a carrier frequency for modulating a voice signal using a local oscillation frequency for short-range wireless communication generated by the divider; A modulation circuit unit for modulating a voice signal passing through the audible frequency amplifier into an IF signal using a carrier frequency generated by the carrier frequency oscillator; And a RF circuit unit for converting the IF signal modulated by the modulation circuit unit into an RF signal and wirelessly transmitting through the mode conversion switch and an antenna. According to claim 1, wherein the receiving unit in the short-range wireless communication unit, An RF circuit unit for receiving an RF signal input through the antenna and a mode conversion switch and converting the signal into an IF signal; A carrier frequency oscillator for generating a carrier frequency for demodulating an IF signal into a voice signal using a local oscillation frequency for short-range wireless communication generated by the divider; A demodulation circuit unit for demodulating the IF signal converted by the RF circuit unit into a voice signal using a carrier frequency generated by the carrier frequency oscillator; An amplitude limiter for maintaining a constant amplitude imbalance of the speech signal demodulated by the demodulation circuit; A frequency discriminator for detecting a frequency change of the voice signal passing through the amplitude limiter as a DC output voltage; A deemphasis circuit unit for lowering the high frequency band of the voice signal passing through the frequency discriminator and outputting the original voice signal; A low frequency amplifier for amplifying the original audio signal output from the deemphasis circuit unit; A short-range wireless communication terminal capable of short-range wireless communication, characterized in that the circuit configured to stop the operation of the audible frequency amplifier when the signal input to the receiver is below a predetermined voltage.