KR101247185B1 - Indoor broadcasting system having digital monitoring device of high impedance signal - Google Patents

Abstract

PURPOSE: An indoor broadcasting system including a digital monitoring device of a high impedance broadcasting output signal is provided to monitor a high impedance output broadcasting signal. CONSTITUTION: A microcontroller(26) quantifies data of an A/D(Analog/Digital) converter. The microcontroller transmits and receives the data. A channel selecting unit(27) for monitoring a speaker selects the audio output of a channel selected by a monitoring device. An audio transmitting unit(28) transmits an audio signal of the selected audio channel to the monitoring device. An RS-485 data transceiver(29) outputs generated RS-485 data to the monitoring device by coupling a channel number with the quantified data in the microcontroller. [Reference numerals] (21) Output controlling relay unit; (22) Output terminal; (23) Output signal attenuator(100V to 5V); (24) Sequence channel selecting unit(20CH to 1CH); (25) A/D converter; (26) Micro controller(channel selection control)(data quantization)(RS-485 conversion)(voice monitoring control); (27) Channel selecting unit for monitoring a speaker; (28) Audio transmitting unit; (29) RS-485 data transceiver; (30) Monitoring device

Description

Indoor broadcasting system having digital monitoring device of high impedance broadcasting output signal

The present invention relates to an on-premises broadcasting system having a digital monitoring device, and more particularly, when a high impedance output signal (voice signal, 100V or 70V) output from an amplifier is controlled and outputted to a desired area. A premises broadcasting system having a digital monitoring device of a high impedance broadcast output signal for monitoring an output level of a speaker so as to grasp a broadcasting state.

In order to check the broadcasting status of each broadcasting region regarding whether the broadcasting signal output from the amplifier is normally output in each broadcasting region, the output state is connected by connecting the broadcasting output signal (100V / 70V) to the monitoring device.

To this end, in the conventional method, as illustrated in FIG. 1, signal detection lines L1 to Ln are connected to the monitoring device 12 at an output unit for outputting a voice signal from the broadcasting zone controller 10 to the speakers SP1 to SPn. Since the signal detection lines L1 to Ln require two wires (+/-) for each channel, the number of strands of the signal detection line connected is twice the number of channel numbers in the broadcasting area. . In this case, as the number of channels increases, the number of connection lines with the monitoring device doubles, increasing the inconvenience in system installation.

For example, in the case of an elementary school broadcasting device having 50 classes, that is, installing 50-channel speakers, 100 signal detection lines are required.

In particular, the high-impedance output signal (100V / 70V) has a higher voltage than a normal signal, so the standard of the cable should be guaranteed to ensure the stability of the connecting wire used for signal detection, which causes considerable problems and difficulties in wiring processing.

Patent Publication 10-2005-0122744

The present invention has been invented in view of the above-mentioned circumstances, and is output to speakers of each broadcasting area inside a broadcasting area controller composed of a relay group to control a high impedance broadcasting signal in the premises broadcasting and output the same to a plurality of broadcasting areas. And a broadcast signal converting means for converting a high impedance output signal into a low impedance output signal, wherein the broadcast signal converting means connects the corresponding output signal to the monitoring device through the digital data line, thereby connecting only the digital data line. An object of the present invention is to provide a premises broadcasting system having a digital monitoring device of a high impedance broadcast output signal which can monitor whether or not a high impedance broadcast output signal of a premises broadcasting system is normally output.

An on-premises broadcasting system including a digital monitoring device of a high impedance broadcast output signal of the present invention for realizing the above object includes an output control relay unit for selecting and controlling a broadcasting area; An output terminal for connecting to a speaker in a broadcasting area; An output signal attenuator for attenuating a high impedance broadcast signal into a low impedance signal; A sequential channel selector for sequentially selecting one channel connected to each broadcasting area; An A / D converter for converting an output value of the selected channel into a digital value; A microcontroller for quantifying data and transmitting and receiving data; A speaker monitoring channel selector for selecting an audio output of a channel selected by the monitoring device; An audio transmitter for transmitting an audio signal of a selected audio channel to a monitoring apparatus; RS-485 data transceiver for combining the number of the channel and the quantified data in the micro-controller and outputs the data output in the RS-485 data type to the monitoring device, including a broadcast output signal through one data line Characterized in that it can be monitored.

The premises broadcasting system having the digital monitoring device of the high impedance broadcast output signal of the present invention as described above can monitor the broadcast status transmitted to each broadcasting area through only one data line, The wiring structure is simplified, and thus there is an advantage that the peripheral aesthetics can not be damaged.

1 is a schematic configuration diagram of a premises broadcasting system having a conventional high impedance broadcast output signal monitoring apparatus;
2 is a schematic configuration diagram of a premises broadcasting system having a high impedance broadcast output signal monitoring apparatus according to the present invention;
3 is a detailed configuration diagram of a broadcasting zone controller for implementing a premises broadcasting system according to the present invention;
4 is a flowchart illustrating the operation of a broadcasting zone controller for implementing an on-premises broadcasting system according to the present invention;
Figure 5 is a flow chart illustrating the operation of the monitoring device for implementing the premises broadcasting system of the present invention.

Hereinafter, the configuration and operation of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic block diagram of a premises broadcasting system having a high impedance broadcast output signal monitoring apparatus according to the present invention. The campus broadcasting system of the present invention includes a broadcasting zone controller 20 and a monitoring device 30.

The broadcast zone controller 20 is composed of a relay group, and the broadcast zone controller 20 may selectively connect only a relay installed in a channel to transmit a broadcast output signal based on a control signal of a broadcast controller (not shown) to be in an ON state. It is.

Therefore, the broadcasting zone controller 20 selects only the relay corresponding to the speaker to transmit the broadcasting output signal among the speakers SP1 to SPn installed in each broadcasting zone, and connects it to the on state, thereby broadcasting the broadcasting output signal output from the amplifier. It is possible to control the transmission.

One data line (Data) is connected between the broadcasting zone controller 20 and the monitoring device 30, so that the broadcasting zone controller 20 when the broadcasting zone controller 20 transmits a broadcast output signal to an arbitrary broadcasting zone. By monitoring the broadcast state on the side and transmitting the result through the data line (Data) it is observed whether or not the broadcast output signal is normally output from the monitoring device (30).

As such, only one data line (Data) is connected between the broadcasting zone controller 20 and the monitoring device 30 to monitor, thereby implementing a monitoring device having a simple structure.

3 shows a detailed configuration diagram of a broadcasting area controller for implementing the present invention.

The broadcast zone controller 20 is provided with an output control relay unit 21 for selecting and controlling a broadcast zone.

The output control relay unit 21 is connected to an output terminal 22 having a terminal for connecting to a speaker in a broadcasting area. In the case of having a broadcasting channel of 20 channels as shown in the illustrated example, the output control relay 21 also has 20CH, and the output control relay 21 and the output terminal 22 are also connected to 20CH.

The output signal attenuator 23 functions to attenuate the high impedance broadcast signal of each channel transmitted from the output control relay unit 21 to the output terminal 22 into a low impedance signal. In the illustrated example, the broadcast signal of 100V is attenuated by the broadcast signal of 5V.

The sequential channel selector 24 is composed of a multiplexer, for example, and sequentially selects one channel connected to each broadcasting area.

The A / D converter 25 converts the output value of the selected channel into a digital value.

The microcontroller 26 quantifies data and transmits and receives data.

The speaker monitoring channel selector 27 selects an audio output of the channel selected by the monitoring device 30.

The audio transmitter 28 transmits the audio signal of the selected channel to the monitoring apparatus.

4 is a flowchart illustrating an operation of a broadcasting area controller for implementing an on-premises broadcasting system according to the present invention.

First, the broadcast zone controller 20 waits until the start recognition signal comes from the monitoring device 30. The start recognition signal is generated when power is supplied to the monitoring device 30 to operate the monitoring device 30.

Thereafter, when the start recognition signal comes from the monitoring device 30, the operation starts.

Subsequently, the broadcast zone controller 20 detects a broadcast start mode (broadcast state) signal from the broadcast output signal transmitted from the relay group to each broadcast zone.

The output signal attenuator 23 receives a region-specific broadcast output signal (100V / 70V) of a high impedance signal between the output control relay 21 and the output terminal 22 of the broadcasting zone controller 20, which is a low impedance signal. Convert to a signal below 5V level.

The converted 5V or less low impedance signal is sequentially selected for each channel by the sequential channel selector 24 formed of a multiplex circuit.

The A / D converter 25 converts the low impedance signal of the selected channel, which is an analog signal, into digital data.

The microcontroller 26 compares the converted digital data and quantifies the converted digital data into eleven level values (0 to 10).

The microcontroller 26 cancels when there is no change in value compared with the previous transmission data of the corresponding channel based on the quantified data.

On the other hand, the microcontroller 26 converts the channel number and the quantization data into an RS-485 data type when there is a change in value based on the quantized data compared with the previous transmission data of the corresponding channel. The converted RS-485 type data is transmitted to the monitoring device 30 using the RS-485 data transceiver 29.

When the voice monitoring channel data is received from the monitoring device 30, the corresponding channel is selected to reflect the voice monitoring signal to the data line.

5 is a flowchart illustrating the operation of the monitoring device for implementing the premises broadcasting system of the present invention.

First, when the operation mode (power on) in the monitoring device 30 sends a start recognition signal to the broadcast zone controller 10 consisting of a relay group.

Thereafter, the data transmitted from the broadcasting area controller 10 is received, and each channel is analyzed from the received data and displayed according to the received value in the level meter of the corresponding channel.

When the channel for voice monitoring is selected, the channel data is transmitted to the broadcasting zone controller 10.

10, 20-broadcasting zone controller, 12, 30-monitoring device,
21-output control relay, 22-output control,
23-output signal attenuator, 24-sequential channel selector,
25-A / D converter, 26-microcontroller,
27-channel selector for speaker monitoring, 28-audio transmitter,
29-RS-485 data transceiver, L1-Ln-signal detection line,
SP1 ~ SPn-Speaker, Data-Data Line.

Claims (1)

A broadcasting area controller comprising a plurality of channel output control relay units for selecting and controlling a broadcasting area and a plurality of channel output terminals connected to respective channels of the output control relay unit for connection to speakers of the broadcasting area; In the premises broadcasting system having a digital monitoring device connected to the output side of the monitoring area to output the signal from the broadcasting zone controller,
The broadcasting zone controller may include: an output signal attenuator configured to attenuate a high impedance broadcast signal output from each channel of the output control relay unit into a low impedance signal; A sequential channel selector for sequentially selecting one channel connected to each broadcasting area; An A / D converter for converting an output value of the selected channel into a digital value; A microcontroller for quantifying data of the A / D converter and transmitting and receiving data; A speaker monitoring channel selector for selecting an audio output of a channel selected by the monitoring device; An audio transmitter for transmitting an audio signal of a selected audio channel to a monitoring apparatus; RS-485 data transceiver for combining the number of the channel and the quantified data in the micro-controller and outputs the data output in the RS-485 data type to the monitoring device, including a broadcast output signal through one data line A premises broadcasting system having a digital monitoring device for a high impedance broadcast output signal, characterized in that the monitoring is made.

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