KR101485664B1 - Village broadcasting system - Google Patents

Abstract

The present invention relates to a radio transmitting and receiving apparatus for a town broadcasting system for selectively receiving an analog signal and a digital signal and for receiving a voice signal in an individual home of a village unit, A signal amplifying unit for amplifying a signal received from the RF receiving unit and transmitting the amplified signal to a signal output unit, a signal output unit for receiving a signal amplified from the signal amplifying unit and outputting a signal, An emergency call module for receiving an emergency call signal from the RF receiver through the control unit, a call signal transmitter for outputting an emergency call signal amplified through the signal amplifier, and a control unit for controlling the wireless transmission / Wherein the control unit comprises: Or recognizes the intensity of the digital signal, and relates to the case of one signal strength is going down below a certain strength of the town broadcasting system, characterized in that to control to receive a signal of another wireless system transmitting and receiving device.

Description

Village broadcasting system

The present invention relates to a rural / rural town broadcasting system, and more particularly, to a system of a wireless transmitting / receiving apparatus capable of listening to a town broadcasting more clearly and efficiently and notifying an urgent situation around the town when an emergency situation occurs in a village.

When the microphone is broadcasted in the town hall, it will be a sound broadcast throughout the village from the streamlined trumpet speaker placed in the town. The existing system is degraded due to aging and can not hear broadcast information when it is in the absence of the audible area due to hearing loss and echo in rain. And because of the device that can not record the broadcast, it is inconvenient to listen again.

In addition, since the suburbs are usually formed by nature, the distances between the houses are considerably long. This environment is very inconvenient for the person in charge of watching the village work, and when a fire or an emergency occurs, the spread of the emergency situation may be delayed, resulting in a waste of time and manpower. There are many villages that have a broadcasting facility in the village. Such a broadcasting facility is constituted by installing a broadcasting amplifier in a town hall and connecting a plurality of speakers to a remote place by wire. Since many speakers need to be connected to a broadcasting amplifier by wire, the installation cost is also burdensome, but the maintenance burden becomes very heavy. As the number of speakers connected to one another increases, the load on the amplifiers increases. As a result, the outputs of the amplifiers are frequent. Also, since the wired lines are also exposed to the air, their life is greatly shortened by rain, snow, , And the line is damaged or broken due to carelessness due to the work of other companies (electric construction, communication construction, etc.), and maintenance management costs are increased.

The present invention seeks to provide a town broadcasting system which is simple in maintenance and is efficient in propagating the situation.

The present invention relates to a radio transmitting and receiving apparatus for a town broadcasting system for selectively receiving an analog signal and a digital signal and for receiving a voice signal in an individual home of a village unit, A signal amplifying unit for amplifying a signal received from the RF receiving unit and transmitting the amplified signal to a signal output unit, a signal output unit for receiving a signal amplified from the signal amplifying unit and outputting a signal, An emergency call module for receiving an emergency call signal from the RF receiver through the control unit, a call signal transmitter for outputting an emergency call signal amplified through the signal amplifier, and a control unit for controlling the wireless transmission / Wherein the control unit comprises: Or recognizes the intensity of the digital signal, and provides, if a signal strength is going down below a certain strength of the town broadcasting system, characterized in that to control to receive a signal of another wireless system transmitting and receiving device.

If the village broadcasting system according to the present invention is equipped with a wireless transmission / reception broadcasting apparatus, an advanced town broadcasting system can be utilized. It is possible to improve the reliability of administration because information such as announcement, farming information, and administrative broadcasting is transmitted quickly and accurately, and it can be utilized effectively as a function of transferring agricultural and fishery information to farmers in the field. It may be expected that the efficiency of the work of the village broadcasting director is increased.

It can also lead to an increase in welfare systems in rural areas. It is possible to activate informatization and elderly person emergency call system suitable for the reality of farming and fishing villages, and contribute to citizen's unity through effective information transmission and anticipation of resolving alienation of farming and fishing villages.

The situation can be improved in disaster situations in villages. In 2006 Typhoon Winiah died in Inje County, Gangwon Province with 12 deaths and 23 missing persons. This is an example of the need to introduce a new town broadcasting system. It is anticipated that it will be possible to prevent accidents by emergency evacuation by informing neighboring households of emergency situations by emergency button of speakers installed in the home.

Most of all, when there is a confusion between the digital signal and the analog signal, there is an advantage that it can switch to another signal and has a stable state propagation ability.

Brief Description of the Drawings Fig. 1 is a view showing a conventional wired type town broadcasting system.
2 is a block diagram of a wireless transceiver according to the present invention;
3 is a view showing an appearance of a wireless transceiver according to the present invention.
FIG. 4 is a circuit diagram illustrating a receiving unit and an output unit of the wireless transmitting and receiving apparatus according to the present invention. FIG.
FIG. 5 is another circuit diagram illustrating a receiving unit and an output unit of the wireless transmitting and receiving apparatus according to the present invention. FIG.
6 is a view showing a village broadcasting system using a wireless transmitting / receiving apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood, however, that the embodiments described below are only for explanation of the embodiments of the present invention so that those skilled in the art can easily carry out the invention, It does not mean anything.

FIG. 1 is a view showing a conventional wired-type village broadcasting system.

Previously, when broadcasting from the town hall, the broadcasting was delivered through the speaker installed in the village through the cable. However, this method has been costly because of the retirement of the wired device and has been difficult to manage.

2 is a block diagram of a wireless transceiver according to the present invention.

The present invention selectively receives analog signals and digital signals to receive voice signals from individual households in towns. In addition to the voice signal, it is also possible to transmit a paging signal or the like.

The apparatus according to the present invention includes an RF receiver for receiving a digital or analog signal and transmitting the signal to a signal amplifier, a first signal amplifier for amplifying a signal received from the RF receiver and transmitting the amplified signal to a signal output unit, A voice recording unit for recording the voice received from the RF receiving unit and transmitting the voice to the signal output unit when requested, a control unit for receiving the amplified signal from the RF receiving unit, An emergency call module for receiving an emergency call signal through the emergency call module, a call signal transmitter for outputting an emergency call signal amplified through the second signal amplifier 106 through the emergency call module, and a controller for controlling the wireless transceiver do.

In addition, the controller recognizes the strength of an analog signal or a digital signal, and when the intensity of one signal falls below a predetermined intensity, the controller can control to receive signals of different types, and thus, when an analog signal or a digital signal is transmitted / To enable switching from "analog signal to digital signal" or "digital signal to analog signal" in the event of crosstalk.

3 shows the appearance of a wireless transceiver according to the present invention.

And a speaker corresponding to the signal output unit or the call signal transmission unit is mounted on the external appearance, and the situation can be transmitted to the other wireless transmission / reception device through the wireless transmission / reception device via the microphone. When the emergency button is pressed, the emergency calling process is immediately activated to another wireless transmitting / receiving device. This causes the emergency calling signal to be output through the emergency calling module in another wireless transmitting / receiving device in the village through the control unit, thereby propagating an emergency situation. At this time, if you want to record the broadcast, you can select the desired broadcast by operating the MP3 of the voice recording part that can record and record and listen again.

The unit is equipped with functions such as playback, repeat, and flip, and is equipped with the ability to record audio signals and then use them to propagate them later.

One side of the device has a power button, an expansion card slot (USB, SD card, etc.) and a volume control.

FIG. 4 is a circuit diagram illustrating a receiving unit and an output unit of the wireless transmitting / receiving apparatus according to the present invention.

At the far left of the schematic, an external antenna is indicated, and at the center of the schematic there is a receiver (RX receiver). The receiver receives frequency signals between 400 and 470 MHz and is controlled by DCS (Digital Coded Squelch).

DCS is a digital version of CTCSS. CTCSS stands for Continuous Tone Coded Squelch System, which is also called Private Line (PL) in Motorola and Channel Guard (CG) in GE. CTCSS is a continuous tone squelch control function that normally receives one of 38 tone codes and receives only the signal transmitted from the device with matching tone code. It is a function that can control undesired receive signal and reduce battery consumption. Finally, DCS is a method to prevent crosstalk by using different codes when transmitting and receiving using the same frequency.

The manner of operation of the RF carrier depicted at the bottom of FIG. 4 represents the manner in which the signal is processed over time, wherein the TX and RX processes the signal in the form of a DTMF signal and an audio signal, respectively. In addition, a voice recording unit and a player may be added. The received and processed signal is output from the RX speaker of the receiver.

DTMF (Dual Tone Multifrequency) is an abbreviation for Dual tone multifrequency, which is a technique for dialing a combination of sounds of two voice frequencies, corresponding to a push phone.

5 is a circuit diagram illustrating a receiver and an output unit of the WTRU according to the present invention.

At the far left of the schematic, an external antenna is indicated, and at the center of the schematic there is a receiver (RX receiver). In this embodiment, the receiver receives frequency signals between 400 and 470 MHz as in the previous embodiment. The manner of operation of the digital carrier is shown in the lower portion of FIG.

The manner of operation of the digital carrier depicted at the bottom of FIG. 5 illustrates how the signal is processed over time, which enables dual transmission and reception, rather than one-way, to enable output from the receiver speaker (RX speaker). In addition, a voice recording unit and a player may be added. The processed signal is output from the RX speaker of the receiver.

In the event of an emergency, in the event of an emergency, the use of such a digital transmission / reception system will enable faster propagation of the situation, thereby preventing damage to persons and property at an early stage.

For reference, time division multiple access (TDMA) refers to a time division multiple access method in which a plurality of base stations are connected to each other through a single repeater, and the same frequency band is temporally divided so that signals do not overlap, Synchronous TDMA and asynchronous TDMA are the technologies that are used in. The synchronous type has a fixed length of time frame, which is the basic cycle of transmission and reception of signals, so that it is ensured that all connected base stations transmit data at the allocated time. The asynchronous scheme applies a special way of controlling them because each base station has a random access right.

The TDMA scheme is advantageous in that the repeater can be operated in the saturation region even if the number of connected nodes is increased because the carrier wave is amplified at one time even when the carrier wave is amplified at one time in a single relay apparatus. On the other hand, since the data transmission time of one transmission path is divided by a fixed time width irrespective of the amount of data to be actually transmitted, there is a disadvantage that the efficiency is lowered.

Multiplexing is a way to economically utilize a limited transmission line, which means that a plurality of terminal devices transmit signals in a combined form via one communication line and separate the signals in the original form at the receiving end. In addition to TDMA, there are FDMA (Frequency Division Multiple Access) method and CDMA (Code Division Multiple Access) method.

FHMA (Frequency Hopping Multiple Access) is a digital wireless communication technology using digital communication technology and frequency hopping spread spectrum technology. Spectrum spreading technology spreads the signal by frequency hopping over a frequency band wider than the occupied frequency band by a certain frequency unit, and is resistant to eavesdropping and radio interference, and enables simultaneous multi-conversation in the same frequency band.

Illustratively, the digital transmitter can utilize a UHF transmission signal, an ISM band, or the like. UHF is microwave, the wavelength is from 1m to 10cm, and the frequency is from 300 to 3000MHz. Since the wavelength is shorter and the directivity is stronger than the VHF (microwave), the reach is limited, but there is a characteristic that it can have more channels.

The ISM band refers to a frequency band that can be used in industrial, scientific, and medical devices. Recently, the ISM band is used as a communication frequency band, and a small-capacity wireless device requiring no permission is widely used. However, communication equipment using this frequency band may be used provided that the ISM equipment is allowed to interfere with the communication equipment using this band. In particular, the 2.4GHz band is being used in a variety of communications, including public wireless LAN services, Bluetooth, radio frequency identification (RFID), and digital cordless phones.

6 is a view showing a village broadcasting system using a wireless transmitting / receiving apparatus according to the present invention.

The system includes a set-top box configured to transmit and receive a signal from and to a portable terminal capable of transmitting and receiving a set-top box, a set-top box configured to transmit and receive signals to and from an RF receiving unit by converting a signal received from the portable terminal, A first signal amplification unit 102 for amplifying a signal received from the RF reception unit and transmitting the amplified signal to a signal output unit, a second signal amplification unit 102 for amplifying the signal received from the first signal amplification unit 102, A voice recording unit for recording the voice received from the RF receiving unit and transmitting the voice to the signal output unit when a request is received, an emergency call signal receiving unit for receiving an emergency call signal from the RF receiving unit through the control unit, An emergency call module, a call signal transmitter for outputting the emergency call signal amplified through the second signal amplifier 106, And a control unit for controlling the device, wherein the control unit recognizes the intensity of the analog signal or a digital signal, and if a signal strength is going down below a predetermined intensity is characterized in that control to receive a signal in a different way.

Since the set-top box can use the town hall receiver when receiving a signal from the portable terminal and can broadcast the broadcast directly from the town hall through the portable terminal, it is possible to increase the efficiency of radio waves in an emergency and to visit the town hall directly, Time is shortened.

The set-top box then transmits a signal to a nearby speaker (a wireless transceiver according to the present invention) or a building or home speaker (a wireless transceiver according to the present invention) through a town hall transmitter to receive a voice signal or an emergency call signal . At this time, the user can press a emergency button attached to the wireless transceiver to transmit a voice signal or an emergency call signal received from a town hall transmitter to a nearby home.

101: RF receiver
102: first signal amplifying unit
103: Signal output section
104:
105: Emergency call module
106: second signal amplifying unit
107: Call signal transmitter
108:
201: Town Hall Wireless Transmitter

Claims (6)

In a village broadcasting system that transmits voice signals wirelessly to each individual home from a broadcasting room installed in a town hall
The audio signal is an analog signal or a digital signal,
An RF receiving unit 101 for receiving digital or analog signals;
A first signal amplifier (102) for amplifying a signal received from the RF receiver and transmitting the amplified signal to a signal output unit;
A signal output unit (103) for receiving a signal amplified from the signal amplification unit and outputting a signal;
A voice recording unit 104 for recording the voice received from the RF receiving unit and transmitting the recorded voice signal to the signal output unit;
An emergency call module (105) for receiving an emergency call signal from the RF receiver through a control unit;
A second signal amplifying unit 106 for amplifying a signal of the emergency calling module 105;
A call signal transmission unit 107 for outputting an emergency call signal amplified through the second signal amplification unit 106;
And a control unit (108) for controlling the town broadcasting system,
The control unit 108 includes an RF receiving unit 101; A first signal amplifier (102) connected to the RF receiver (101) and amplifying a signal; A signal output unit 103; a voice recording unit 104; An emergency call module 105; A second signal amplifying unit 106 receiving and amplifying a signal of the emergency calling module; Connected to the signal of the call signal transmission unit 107,
The controller 108 measures the strength of an input signal and controls the signal strength of either the analog signal or the digital signal to be lower than a predetermined value so as to receive signals of different types.
The RF receiver 101 receives a frequency between 400 and 470 MHz,
The control unit 108 uses a DCS method for transmitting and receiving digital signals,
The emergency call module 105 in the control unit 108 is connected to a receiver or a set-top box installed in a town hall,
The set-top box transmits a voice signal or an emergency call signal to a speaker installed in each home through a town hall transmitter to transmit a voice signal or an emergency call signal to each home in the village,
Further, the audio signal is propagated to each member of the village through the set-top box and the transmitter,
The transmitter uses UHF, ISM frequency bands,
The emergency call button is connected to the call signal transmitting unit 107. When an emergency occurs, the emergency call is transmitted to each member of the village,
The voice recording unit 104 in the control unit 108 has a voice recording and reproducing function. delete delete delete delete delete

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