KR100443291B1 - Paging method for telephone receiver and its apparatus thereof - Google Patents

Abstract

PURPOSE: A method for paging a telephone and an apparatus thereof are provided to transmit information included in a voice signal at the maximum by dividing personal voice information so as to be appreciated for a voice frequency band used in a telephone, and then transmitting the information. CONSTITUTION: A microphone(11) receives input of a voice. A pre-amplifier(12) amplifies the voice signal inputted from the microphone(11). A low pass filter(13) and a high pass filter(14) decompose the voice signal to make the voice signal appropriate for a voice frequency band used for a telephone. A plurality of RF modulators(15) connected with the low pass filter(13) and the high pass filter(14) modulate the voice signal. An RF signal synthesizer(16) synthesizes RF signals. An RF amplifier(17) amplifies the synthesized RF signal. A channel divider divides the RF signal into a plurality of RF signals. A demodulator demodulates the divided RF signals into a voice signal band. A frequency shift modulator shifts frequency to synthesize the demodulated RF signals into one signal. A signal synthesizer synthesizes the demodulated RF signals into one signal for outputting the signal to a line level.

Description

Paging method for telephone receiver and its apparatus

The present invention relates to a method for paging a phone and a device thereof, and modulates and divides a voice signal of an individual into a plurality of radio signals to fit the phone band, that is, the voice frequency band used in the phone, and transmits the synthesized amplified signal. The present invention relates to a telephone paging system that separates a signal received at a receiver and restores a voice signal to clearly transmit personal voice information.

In general, paging refers to a paging service, and a paging service system such as internet paging and telephone paging is used, and the paging is connected to a call server through an internet network of a branch exchange and a VMS of a company, a school, or a hospital. Computer-integrated paging radio calling service to make a call, and telephone paging refers to a calling service to call (deliver) a pager using a telephone and a telecommunication network. This phone paging is to call the pager through personal voice, and the individual voice has most of the signals distributed between 125 kHz and 4 kHz as shown in FIG. However, in the telephone system being used, only a frequency between 300 and 3 kHz is transmitted, and a part of the original sound tends not to be transmitted. In particular, since most of the untransmitted frequencies have acoustically important information, there is a problem that accurate transmission of individual voices is difficult. That is, the signal of region 125 ~ 250㎐ among non-transmitted frequencies is the base signal of voice and contains information to distinguish individual voice. The region of region 3 ~ 4㎑ is a signal that contributes to the clarity of speech. There are various problems such as the transmission of voice information with good hearing characteristics is impossible with the telephone system in which voice information is not transmitted.

The present invention has been made in consideration of the above problems, and an object thereof is to modulate a plurality of radio signals to fit the phone frequency band, synthesize them, and then transmit the synthesized voice data. It is to provide a telephone paging system that can improve the clarity of the signal, improve the hearing and make clear the meaning of the individual through the telephone.

The present invention uses a plurality of filters in the transmitter to decompose the signal suitable for the voice frequency band used in the telephone, modulates it into each radio signal, and uses a frequency division multiplexing (FDM) signal synthesizer. After synthesizing, the transmitting step of amplifying and transmitting the received signal, and receiving the transmitted radio signal from the receiving unit, separating the radio signal according to a channel into respective radio signals, and demodulating and synthesizing it into a voice band to restore the audio signal. The present invention provides a method and apparatus for paging a phone.

1 is an exemplary view showing a configuration of a transmitter according to the present invention

2 is an exemplary view showing a configuration of a receiver according to the present invention

3 is an exemplary view showing a configuration of a multiple transceiver unit according to the present invention;

Figure 4 is an exemplary view showing a configuration in a wired manner according to the present invention

5 is an exemplary view showing a frequency characteristic of a voice signal

6 is an exemplary view showing two signal generation processes according to the present invention.

* Explanation of symbols for main parts of the drawings

10: transmitting unit 11 microphone

(12): preamplifier (13): LP (low pass filter)

(14): HPF (High pass filter) (15): RF modulator

(16): RF signal synthesizer (17): RF amplifier

20: receiver

(21): RF channel divider

(22): demodulator (23): frequency shift modulator

24: signal synthesizer

(26): RF Distributor

(27): amplifier system (28): power supply

(29): external interface and other

1 is an exemplary view showing a configuration of a transmitter according to the present invention, Figure 2 is an exemplary view showing a configuration of the receiver according to the present invention, the present invention is a plurality of filters to filter the signal input to the magnetic in the transmitter Decomposes to fit the voice frequency band used in the telephone by using the R-modulator and modulates each radio signal by a plurality of telephone transmitters (RF modulators), synthesizes / amplifies them, and transmits them. After the radio signals are separated into radio signals, the demodulation / synthesis is performed again to restore the audio signal. At this time, the transmission and reception signal channel used between the self and the mosquito is determined through the optimization system, the determined content is set to the communication between the self and the mosquito.

The transmitter 10 inputs the personal voice and transmits it to the receiver. The microphone 11 inputs the personal voice, the preamplifier 12 amplifying the voice signal input from the microphone 11, and the The LP 13 and the HP 14 which decompose the amplified voice signal into a telephone band (voice frequency band used in the telephone) and the LP 13 and the HP 14, respectively, to modulate the signal. An RF modulator 15, an RF signal synthesizer 16 connected to the plurality of RF modulators 15 for synthesizing a radio signal, and an RF amplifier 17 for amplifying a signal synthesized in the RF signal synthesizer 16 The voice signal input to the microphone 11 is amplified to a high signal level by the preamplifier 12 to facilitate processing of a low level signal source at a later stage, and the amplified signal is the LP 13 and the HFP ( 14) via phone It is decomposed to fit the band (voice frequency band used in the telephone), modulated by the RF modulator 15, and then synthesized into one signal by the RF signal synthesizer 16 and synthesized by the RF amplifier 17. Is amplified and sent out.

The receiving unit 20 receives a signal transmitted from the transmitting unit 10 and restores it to a personal voice signal. The channel divider 21 classifies the transmitted signal into a plurality of RF signals, and the classified signal is voiced. A demodulator 22 for demodulating into a signal band, a frequency shift modulator 23 for frequency shifting to synthesize the plurality of demodulated signals into one signal, and combining and restoring the frequency shifted signal into one signal. And a signal synthesizer 24 for outputting signals at the line level.

That is, the receiver 20 classifies the transmitted signal into the RF signal by the channel divider 21, demodulates the classified signal into the voice signal band by the demodulator 22, and then frequency shifts it. The frequency shift is made at 23, and the signal synthesizer 24 is restored to the original audio signal.

According to the present invention configured as described above, when the micro voice signal of the transmitter is input, the input voice signal is amplified by the preamplifier and decomposed to be suitable for the telephone band (voice frequency band used in the telephone) by the filter and the RF modulator. It is modulated, synthesized into a single signal through the RF signal synthesizer, and then amplified and transmitted by the RF amplifier. In addition, the transmitted signal is classified into a plurality of RF signals by a channel divider, demodulated into a voice signal band by a demodulator, and then frequency-shifted by a frequency shifter, and then synthesized into the original personal voice by a signal synthesizer. It is restored and output at the line level.

3 is a diagram illustrating an example of a configuration of a multiple transceiver unit according to the present invention. In a conference and lecture paging system, multiple paging is required, and a plurality of receivers must be used to correspond thereto. That is, the signal transmitted from the transmitter is classified into a plurality of RF signals by the RF distributor 26 of the multi-channel receiver, demodulated into a voice signal band by a demodulator, and frequency-shifted by a frequency shifter, and then original by a signal synthesizer. It is synthesized / restored by the personal voice of and is output at the line level, and the output signal is amplified through the amplifier system 27 and then output through the speaker. That is, the multi-channel receiver analyzes and uses signals transmitted from multiple magnets simultaneously, and the multi-transmitter uses two telephone transmitters. Each transmitter uses a different channel, and the low-part (L-PART) and high-part (H-PART) transmitters determine their respective channel numbers according to specific rules. For example, if transmitter 1 uses 12 channels, transmitter 2 uses the 14 channel beforehand. In addition, since the multiple transmission and reception unit transmits and receives several transmission signals at the same time, the channel is arranged so as not to cause crosstalk, and the signals recovered by the reception unit are mixed using an audio mixer or combiner.

5 shows an exemplary view showing the frequency characteristics of a voice signal. The present invention connects a main control signal to one line and mounts frequency modulation demodulation equipment to the input / output terminals of the remaining signal lines, thereby providing a two-line telephone line. Can deliver clear voice even in wired systems.

Hereinafter, the present invention will be described in detail with reference to Examples and FIG. 6.

Example

6 shows two signal generation processes according to the present invention, in which a low frequency of 2.78 kHz or less is obtained by using LFP and HPF based on the center frequency fc = 2.78 kHz, which is mainly used in the case of a telephone, for a micro-accepted signal of a transmitter. -Separate into parts (L-PART) and high-parts (H-PART) of 2.78 ㎑ or more. The separated voice signal is input to the RF modulator so that the low part is increased by 220 Hz, and the high part is 2.48 Hz by lowering the frequency, and then filtered by a filter to filter the phone band (voice frequency band used in the telephone). In case of low part, only 300 kHz or higher signal is passed through HPF, and in case of high-part, only 3 ㎑ or less signal is passed using LPF and modulated into 300 ~ 3 각각 radio signal, respectively. Let's do it.

When two signals are generated by the above method, the two signals are input to the telephone transmission system. That is, the two radio signals modulated / generated to fit the telephone band (voice frequency band used in the telephone) by the method described above are synthesized in the signal synthesizer, expanded by an amplifier, and then transmitted by one transmitting equipment. do. At this time, the two telephone transmitters (RF modulator) are the same as those of the conventional RF telephone.

In this way, the signal generated by the telephone transmitter (RF modulator) can be synthesized by the signal synthesizer and transmitted to one transmitting device. The synthesized signal is transmitted by the transmitter, and the receiving device receives two telephone transmission signals by a promised channel transmission / reception scheme. That is, the signal (high-part) received by the first transmitter increases the frequency by 2.48 kHz, and the signal (low-part) received by the second number decreases the frequency by 220 kHz to restore and output the original signal. The center frequency fc = 2.78㎑ is set to improve the intelligibility by allowing all the voice signal bands to be included when modulating a signal between the voice signal band 125 kHz and 4 kHz into the telephone band (voice frequency band used in the telephone). The value is not necessarily limited to 2.78 ms. That is, the center frequency can be set so as to improve the intelligibility by including / transmitting all signals in the audio signal band of 125 kHz to 4 kHz. As described above, the present invention is based on "frequency modulation technology", Each radio signal is synthesized / transmitted by a known " frequency division multiplexing (FDM) " to separate voice signals, and the separated signals are transmitted without mutual interference.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

As described above, the present invention decomposes and transmits acoustically important personal voice information to a telephone band (voice frequency band used in a telephone) through a plurality of channels, and then synthesizes it. That is, the present invention improves the problems of the conventional telephone system in which it is impossible to transmit a frequency of information for distinguishing an individual voice and a frequency for improving clarity. I) It is possible to transmit / restore all of them so that it can deliver clear voice.

In addition, due to the transmission of acoustically important personal voice information, it is possible to secure the clarity of hearing, thereby making communication clear, and improving the sense of hearing dissimilarity.

In addition, there are many effects, such as being able to satisfy long-term paging listening due to improved sound quality.

Claims (4)

The transmitter decomposes the micro-input signal to the self using a plurality of filters to fit the voice frequency band used in the telephone, modulates it into individual radio signals, and synthesizes them in the signal synthesizer by frequency division multiplexing (FDM). A transmitting step of amplifying and transmitting the same; And a receiving step of receiving the transmitted one radio signal by a receiving unit, separating the radio signal into respective radio signals according to a channel, and then demodulating and synthesizing the radio signal into a voice band to restore the voice signal. The method of claim 1; The transmitting step may include amplifying a voice signal input from a microphone by a preamplifier; Decomposing the amplified voice signal into a low pass filter (LP) and a high pass filter (HPF) so as to be suitable for a voice frequency band used for a telephone; Modulating a signal decomposed by the LP and the HP with an RF modulator; Synthesizing the radio signals output from the plurality of RF modulators in an RF signal synthesizer; And amplifying the signal synthesized in the RF signal synthesizer in the RF amplifier and transmitting the same. The method of claim 1; The receiving step may include classifying one transmitted signal into an RF signal by a channel divider; Demodulating the classified signals back into a voice signal band by a demodulator; Frequency shifting the demodulated signal in a frequency shifter; Restoring the frequency shifted signal to an original audio signal in a signal synthesizer and outputting the signal at a line level. A microphone into which personal voice is input, a preamplifier to amplify the voice signal input from the microphone, and a low pass filter (LPF) and an HPF to decompose the amplified voice signal into a voice frequency band used for a telephone. pass filter), an RF modulator connected to the LFP and the HFP to modulate a signal, an RF signal synthesizer connected to the plurality of RF modulators to synthesize a radio signal, and amplifying the synthesized signal from the RF signal synthesizer. A transmitter having an RF amplifier; A channel divider for classifying the transmitted signals into a plurality of RF signals, a demodulator for demodulating the classified signals into a voice signal band, and a frequency shift modulator for frequency shifting to synthesize the plurality of demodulated signals into one signal And a receiving unit having a signal synthesizer for synthesizing the frequency shifted signal into a single signal, restoring the signal, and outputting the signal at a line level.