KR950003962B1 - Alert broadcasting automatic receiver - Google Patents

Abstract

The emergency signal sent from a station is received by an emergency signal receiver and a siren is automatically generated. The method comprises steps; (A) generating the DTMF signal and turning-on the lamp; (B) generating the DTMF signal in sequence when the region signal is correct and alarm switch is turned on or stopping the supply of the DTMF signal otherwise; (C) discriminating that a control code is received when the DTMF signal is received and natural code is set by a dip switch (27); (D) generating the error signal when the control code is not received during a certain time; (E) driving the external amplifier when the received code and natural code are matched each other; and (F) generating the siren according the alarm code.

Description

Emergency broadcast auto receiving and siren alarm auto alarm control method

1 is a block diagram of an entire system according to the present invention.

2 is a block diagram of an encoder device according to the present invention.

3 is a block diagram of a decoder device according to the present invention.

4 is a control code transmission signal timing chart according to the present invention.

5 is a flowchart illustrating a control operation of an encoder device in the present invention.

6 is a flowchart for explaining the control operation of the decoder device in the present invention.

* Explanation of symbols for main parts of the drawings

1, 21: microprocessor (MPU) 2: dual tone multi-frequency (DTMF) generator

3, 4, 5, 24, 25: oscillator 4, 26: reset circuit

6, 28: bandpass filter (BPF) 7, 29, 33: buffer amplifier

8: AUX amplifier 9: Line amplifier

10, 34: AUX output terminal 11: Line output signal terminal

22: DTMF decoder 23: siren alarm signal generator

27: DIP switch 30: decoding receiver

31 normal AM / FM receiver 32 switching selector switch

35: Monitor amplifier LP _{1 to} LP _n display lamp

K _1- K _n , key input switch.

The present invention relates to a method for automatically receiving emergency broadcasts and automatically controlling siren alarms using a radio receiver. In particular, the control code transmitted from a broadcasting station is received through a separate emergency broadcast dedicated radio receiving channel to automatically turn on and off emergency broadcast reception. The siren alarm sound is automatically triggered while controlling it off.

Generally, the radio receiver for broadcasting listening can recognize the alarm condition only when the power is on, but it is impossible to listen to the broadcast when the power is off. The situation becomes unrecognizable and there is a risk of accidental accidents or casualties.

In order to improve this, the present applicant has previously proposed the "broadcasting receiver having an automatic civil defense warning apparatus" (notification number: 86-2032), and the receiver detects when a separate detection signal is transmitted through an alarm broadcasting path. Receiving a signal to listen to the emergency alarm broadcast by the device to operate the voice output unit of the receiver, but this requires a separate facility because the broadcasting station must transmit a detection signal with a different frequency band to distinguish the signal from the general broadcast There is a problem in radio wave management that must exclude interference between the frequency of the signal and the adjacent frequency. Also, it is an uneconomical problem because it causes equipment problems on the receiver side to improve the existing receiver circuit in order to receive the detection signal and drive the receiver. There was this.

The present invention has been proposed to solve such a conventional problem, and in particular, in a local disaster situation, a civil defense control station controls or directs a local broadcasting station so that a disaster predicted local can automatically receive an alarm broadcast or a siren alarm in advance. It is an object of the present invention to provide a control method.

Hereinafter, the present invention will be described in detail by the accompanying drawings.

1 is a block diagram of the entire system according to the present invention, in which a transmitter generates an encoder for generating data necessary for automatic reception control, and an AM / AM that receives the encoder output signal and sends a corresponding alarm signal to a receiver decoder. It consists of FM broadcast transmission equipment.

In addition, the receiver is configured with a decoder for analyzing the reception control code of the signal transmitted from the transmitter to perform alarm broadcasting through the existing AM / FM receiver.

2 is a block diagram of an encoder device according to the present invention, which controls a series of operations by selecting key input switches K _{l to} K _n , and thus driving lamps and generating dual tone multi frequency (DTMF) signals. A predetermined frequency for operating the microprocessor 1, the dual tone multi-frequency generator first oscillator 3 for generating the DTMIF signal by the control signal from the microprocessor 1, and the DTMF generator 2; To generate a second oscillator 5, a reset circuit 4 for initializing the operation of the microprocessor 1 when the power is turned on, and a frequency band except for the DTMF signal band 600 to 2,000 HZ. A band pass filter 6, a buffer amplifier 7 for amplifying the fine DTNIF signal to the power level required by the line amplifier 9, an auxiliary amplifier 8 for the auxiliary output circuit, and AM / FM broadcasting Necessary for modulation input of transmission equipment It consists of a line amplifier 9 for amplifying up to power.

3 is a block diagram of a decoder device according to the present invention, and includes a microprocessor 21 for performing a series of alarm operations by a region selection signal, a switch input, and a DTMF received signal, and a digital signal by receiving a DTMF signal. The DTMF decoder 22 for converting the data into the data, the siren alarm signal generator 23 for generating the siren alarm sound by the received control signal (alarm signal), and the predetermined frequency for converting the DTMF signal. A third oscillator 24, a fourth oscillator 25 generating a predetermined frequency for the microprocessor 21 to operate, and a reset circuit 26 for initializing the operation of the microprocessor 21 when the power is turned on. And a dip switch 27 for setting a unique code of the decoder, a bandpass filter 28 for removing a frequency band excluding the DTMF signal band, and fines from the decoding receiver 30. A buffer amplifier 29 for amplifying an input signal to the power level required by the bandpass filter 28, a decoding receiver 30 for receiving the signal to be decoded, and an AM / FM for receiving a conventional AM / FM signal. Power required for the FM receiver 31, the switching selection switch 32 switched to the decoding receiver 30 side when the alarm sound is generated by the received DTMF control signal, the auxiliary output terminal 34 for monitor and the monitor imp 35 A buffer amplifier 33 for amplifying to a level, and a monitor amplifier 35 for amplifying to a power level required for monitoring the received alarm broadcast.

The emergency broadcast automatic reception and siren alarm automatic fault control method according to the present invention related to the encoder and decoder device configured as described above will be described with reference to FIGS. 5 and 6.

As shown in FIG. 5, in the encoding process according to the present invention, the microprocessor 1 determines the input state of the key input switch K _{1 to} K _n (area 1 to area 6, boundary, air strike, disaster, etc.). The first step of determining whether the region is selected and if the region is selected, operates the DTMF generator 2 after the lamp is turned on, and generates and terminates the DTMF signal twice in succession. Alternatively, the second process of determining whether the alarm switch is on or not, determines whether the region is selected, and if the region is selected, performs DTMF signals twice in succession, and if not, the process immediately terminates. Consists of

As shown in FIG. 6, the decoding process according to the present invention sets the unique code as the dip switch 27 and then determines the DTMF signal input state by the microprocessor 21, and receives the control code twice when the signal is input. A third step of judging authorization, a fourth step of judging whether the control code has been received within a prescribed time if the control code is not received twice, and processing an error state if not within a prescribed time; and the control code 2 In the case of the reception status, if the reception code and the setting unique code match, it determines whether the reception code and the setting inherent code match, and if it matches, it operates the external amplifier by turning on the relay (RY). If the setting unique code does not match, it determines whether it is an information code.If it is an alarm code, it detects whether the external amplifier is on and then controls the siren alarm sound on / off. It consists of six processes.

Referring to Figure 4 the operation and effect of the present invention made as described above are as follows.

First, the encoder device is a device that generates data necessary for automatic reception control. When the key input switch (K _{1 to} K _n ) for selecting area 1 to area 6, boundary, air strike, and disaster is selected, the corresponding setting is performed. The control code is input to the microprocessor 1.

Such a setting control code is regularly output for each function as shown in FIG. 4 by the control operation of the microprocessor 1.

At this time, in order to prevent the error, the control code is transmitted two times consecutively.

That is, the microprocessor 1 determines the input state of the key input switches K _{1 to} K _n as shown in FIG. 5, and if the corresponding switch input state among the key input switches K _{1 to} K _n is input, the corresponding local switch input. If it is in the state of inputting the switch in the relevant area, turn on the lamp (LP ₁ ~ LP _n ).

If it is not the state switch input state, it is determined whether the alarm switch is in the on state and if it is not on, it is terminated immediately. If the alarm switch is in the state, it is determined whether the area switch is in the on state again and it is terminated if it is not in the on state. .

If the corresponding region switch is in the ON state, the DTMF generator 2 is operated in the subsequent process of turning on the corresponding lamps LP _{1 to} LP _n to terminate the output after the DTMF signal is output twice.

The output of the DTMF generator 2 is cut out of the frequency band except for the DTMF signal band (600 to 2,000 Hz) through the band pass filter 6 and then passed through the buffer amplifier 7 and the variable resistors VR _l and VR ₂ . After each amplification through the auxiliary amplifier 8 and the line amplifier 9, it is applied to the auxiliary output terminal 10 and the input terminal 11 of the AM / FM broadcast transmission equipment.

On the other hand, the decoder device receives the signal transmitted through the antenna of the AM / FM broadcast transmission equipment in the encoder cabinet to the decoding receiver 30 and then through the buffer amplifier 29 and the band pass filter 28 DTMF decoder 22 When applied to the digital signal, the DTMF signal is received, the data is converted into a digital signal, and input to the microprocessor 21.

Accordingly, the microprocessor 21 analyzes the received control code and selects the switching selection that has been switched to the normal AM / FM receiver 31 when the automatic reception code of the decoder device itself is matched among the "all broadcast" or "local broadcast". The switch 32 is automatically switched to the decoding receiver 30 side.

Accordingly, the microprocessor 21 operates the kill RY to turn on the contact thereof, and thus operates the civil defense amplifier connected to the outside to always be alerted even when receiving a different broadcast (FM or other channel broadcast) or off. You can receive a broadcast.

Subsequently, when the siren control code is received, the siren alarm sound is generated only when the decoder device is in an auto-receiving state. do.

In other words, when the dip switch 27 is set as a unique code that is an automatic reception code for local broadcasting, it is possible to divide and set six regions up to region codes 1 to 6.

The microprocessor 21 determines the corresponding selection signal of the unique code selected by the dip switch 27 and performs a series of alarm operations by the region selection signal, the switch input and the DTMF reception signal.

That is, as shown in FIG. 6, after setting the unique code as the dip switch 27, the microprocessor 21 determines the DTMF signal input state, and if it is the signal input state, determines whether the corresponding code signal has been received twice. do.

If it is not received twice, it detects whether it is within the specified time. If it is not within the specified time, it processes as an error and terminates.

If it is received twice, it detects whether the received code matches the unique set code, and if it matches, the relay RY contact is immediately controlled on / off and then terminated.

If the received code and the unique setup code do not match, it is determined whether the received code matches the entire area code. If the received code matches, the process of controlling the relay (RY) contact on / off is performed as described above. If it does not match the entire area code, it is determined whether it is an alarm code input state and terminates immediately if it is not an alarm code input state.If it is an alarm code input state, it detects whether an external amplifier is on and if it is on, it terminates after siren alarm sound. If it is off, the siren alarm sound will be terminated without clearing.

As described above, the present invention adopts a DTMF method that combines a plurality of signals combining two or more sounds to minimize the malfunction that may be caused by noise and crosstalk, thereby improving the reliability of the entire system, and By dividing the receiving code, it is possible to subdivide into multiple alarm zones in the same frequency band, so that active situations can be dealt with according to local characteristics.

Claims (1)

The microprocessor 1 determines the input state of the key input switches K _{l to} K _n , and then determines whether the region is selected. If the region is selected, the DTMF generator 2 is operated after turning on the corresponding lamp. The first step of continuously generating and terminating the DTMF signal, and determining whether the area is in the selected area if the alarm switch is on, if the area is not selected. An encoding process comprising a second process of performing a process occurring and immediately ending if the corresponding region is not selected; A third process of determining the DTMF signal input state by the microprocessor 21 after setting the unique code as the dip switch 27 and determining whether a control code has been received if the signal input state; Otherwise, the fourth process of determining whether the reception state is within the prescribed time and processing as an error state if the reception state is not within the prescribed time, and if the control code reception state is identical, determines whether the reception code and the setting unique code are identical and relays to the relay (RY). The external amplifier is turned on to operate the external amplifier, and the fifth step of controlling the emergency broadcast reception for each region is on and off, and if the receiving code and the entire region setting unique code do not match, it is determined whether it is an alarm code. Performing a decoding process comprising a sixth process of controlling the on / off generation of the siren alarm sound after detecting the application; Emergency broadcast automatic reception and siren alarm automatic fault control method.