KR0126901Y1 - Acoustic/assistant signal channel selection device - Google Patents

Abstract

The present invention relates to a sound / auxiliary signal channel selection device, and in the related art, a plurality of sensors and auxiliary sensors constituting an acoustic signal detection sensor also need to secure a plurality of channels of an input signal, and simplify the configuration of the rear stage. In order to reduce the cable for transmitting data, signals input to each channel must be sequentially selected and transmitted. That is, it was necessary to convert the detected sound signal and the auxiliary signal into serial data and transmit the same. The present invention sequentially selects the channel into which the acoustic signals detected by the plurality of sensors are input and the channel into which the auxiliary signals detected by the plurality of auxiliary sensors are input, according to the group signal, the channel signal, and the switching signal of the timing signal generator. By transmitting the auxiliary signal to the rear stage, it is possible to multiplex and process the acoustic signal and the auxiliary signal input to a plurality of channels.

Description

Audio / Auxiliary Signal Channel Selector

1 is a block diagram of an acoustic countermeasure system.

2 is a block diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

100: sound signal detection sensor 200: sound signal transmission device

210: analog multiplexer 220: timing signal generator

211,212,213 ... 21A, 21B: Termination resistor

221,222,223 ... 22A, 22B: Analog Multiplexer

231,232: switching unit 230: AGC amplifier

240: analog / digital converter 250: data transmitter

260: AGC data receiving unit 270: power supply

300: cable

The present invention relates to a sound / auxiliary signal channel selector in an acoustic counterpart system, and more particularly, to an acoustic / auxiliary signal for selecting and multiplexing an acoustic signal channel detected by a sensor and an auxiliary signal channel detected by an auxiliary sensor. It relates to a channel selector.

In general, an acoustic countermeasure system that detects and processes acoustic signals generated from seawater includes an acoustic signal detection sensor including a plurality of sensors for detecting acoustic signals generated from seawater, and a sound signal detected by the acoustic signal detection sensor. A cable for transmitting to a located sound signal processing device, an audio signal processing device for calculating the position, type, and moving direction of an object in the water by the transmitted sound signal, and the position of the object calculated by the sound signal processing device. And a display unit for displaying the type and the moving direction.

Conventional acoustic countermeasure system configured as described above detects the acoustic signal generated from the seawater by the sensor constituting the acoustic signal sensor, and the surrounding environment of the acoustic signal sensor submerged in seawater, that is, the seawater in which the acoustic signal sensor is locked Auxiliary signals that detect the depth of the, the direction of movement of the acoustic signal sensor, the temperature of the sea water, etc. are transmitted to the acoustic signal processing apparatus located on the ship through the cable.

As described above, an acoustic signal processing apparatus that receives data (referred to as an acoustic signal and an auxiliary signal) sensed and transmitted by the acoustic signal detecting sensor reads / computes the operating environment and the acoustic signal of the acoustic signal detecting sensor during operation. The type, position, and direction of movement of the objects in the vehicle are determined.

In addition, by outputting the type, position, and moving direction of the object calculated by the sound signal processing apparatus to the display unit connected to the sound signal processing apparatus, the type, position, and moving direction of the object in the water can be easily known. will be.

In particular, the acoustic signal sensor includes a plurality of sensors capable of detecting the acoustic signal emitted from various angles so that the acoustic signal sensor can receive the acoustic signal emitted from a wider angle. While detecting the environment of the acoustic signal sensor, the misalignment of the acoustic signal according to the environment of the acoustic signal sensor is determined while determining the type, position, and moving direction of the object by the acoustic signal.

As described above, since there are a plurality of sensors and auxiliary sensors constituting the acoustic signal detection sensor, a plurality of channels of the input signal must be secured, and the configuration of the rear end is simplified and the volume of the cable for transmitting the acoustic signal and the auxiliary signal is reduced. In order to transmit data while reducing, the signals input to each channel must be multiplexed and transmitted.

That is, it was necessary to convert the detected sound signal and the auxiliary signal into serial data and transmit the same.

The present invention has been made in view of this point, and it is intended to provide an audio / auxiliary signal channel selector which converts and transmits an acoustic signal channel detected by a sensor and an auxiliary signal channel detected by an auxiliary sensor into a serial signal. The purpose is.

The present invention for realizing the above object is a sound signal transmission device, terminating resistor for converting the sound signal and the auxiliary signal of each channel detected by the sensor and the auxiliary sensor of the acoustic signal detection sensor into a voltage value, A timing signal generator which generates a group signal, a channel signal and a switching signal, an analog multiplexer which selects each channel by switching between the group signal and the channel signal of the timing signal generator, and an AGC that amplifies the signal of the acoustic signal channel. And an amplifier and a switching unit which selects an acoustic signal and an auxiliary signal based on the switching signal of the timing signal generator and applies them to the analog / digital converter.

Hereinafter, the configuration according to an embodiment of the present invention will be described in more detail with reference to the accompanying drawings.

The present invention, as shown in Figure 2, in the audio signal transmission apparatus, each channel (CH ₁ ~ CH ₈₈ ; sensed by the sensor and the auxiliary sensor of the acoustic signal detection sensor ( _{88 in the} present invention will be described as an example). That is, the terminating resistor parts 211, 212, 213 ... 21A, 21B for converting the sound signal and the auxiliary signal of the 80 sound signal channels and 8 auxiliary signal channels to voltage values are described as an example. A timing signal generator 220 for generating a signal, a channel signal, and a switching signal, and an analog multiplexer 221, 222, 223 for switching between the group signal and the channel signal of the timing signal generator 220 to select each channel. 22A, 22B), an AGC amplifier 230 for amplifying the signal of the audio signal channel, and a switching signal of the timing signal generator 220 to select an audio signal and an auxiliary signal to select analog / digital signals. Switching unit 231 and 232 applied to the conversion unit 240 All.

The effect of the present invention configured as described above will be described in FIG. 1.

The sound counter system according to the present invention detects an acoustic signal generated from underwater by the sensor constituting the acoustic signal detecting sensor 100, that is, the surrounding environment of the acoustic signal detecting sensor 100 submerged in seawater, that is, the acoustic signal detecting sensor 100. When the auxiliary sensor detects the depth of the seawater locked, the direction of movement of the acoustic signal sensor 100, the temperature of the seawater, and the like is applied to the acoustic signal transmitter 200, the acoustic signal transmitter 200 detects the acoustic signal. Data transmitted from the sensor 100 is converted into a digital signal and multiplexed and transmitted to the acoustic signal processing apparatus located on the ship through the cable 300.

The acoustic signal processing apparatus 400 receiving the data transmitted by being sensed by the acoustic signal detecting sensor 100 locked in the water via the acoustic signal transmitting apparatus 200 is an operating environment of the acoustic signal detecting sensor 100 in operation. It reads / computes (detected by auxiliary sensor) and sound signal (detected by sensor) to determine the type, position, and direction of movement.

Subsequently, the type, position, and moving direction of the object calculated by the sound signal processing apparatus are output to the display unit connected to the sound signal processing apparatus, so that the type, position, and moving direction of the object in the water can be known.

Looking at the operation of the sound signal transmission apparatus 200 which converts the sound signal into a digital signal and multiplexes the above-mentioned operation, it refers to a multi-channel (a signal detected by each sensor applied by the sound signal detecting sensor 100), where the signal Refers to a signal emitted from an object in the water or a signal that detects the operating environment of the acoustic signal sensor 100, and is described below as a weak acoustic signal). Sequentially selects sound signals applied to different channels according to the timing signal of the timing signal generator 220 and applies them to the AGC amplifier 230 (Automatic Gain Control). That is, the acoustic signal applied from the acoustic signal sensor 100 is sampled (multiplexed) with a predetermined time and applied to the AGC amplifier 230 (Automatic Gain Control).

The AGC amplifier 230 (Automatic Gain Control) amplifies the sound signal applied at a low level and applies it to the analog / digital converter 240. At this time, the AGC amplifier 230 transmits the AGC transmitted from the sound signal processor located on the ship. The audio signal is amplified by the control of the AGC data receiving unit 260 receiving the data and applied to the analog / digital converting unit 240.

That is, the level of the sound signal transmitted by the sound signal processing apparatus that recognizes the level of the sound signal transmitted via the cable 300 to the AGC data applied to the AGC amplifier 230 through the AGC data receiver 260 is constant. The level of AGC data is adjusted to be the level.

As described above, the operation of selecting a plurality of channels to which the acoustic signal and the auxiliary signal are applied, multiplexing them, and applying the same to the analog / digital converter 240 is shown in FIG. 2. The acoustic signal and the auxiliary signal detected by the auxiliary sensor are converted into voltage values through the respective termination resistors 211, 212, 213, ... 21A, 21B, and the analog multiplexers 221, 222, 223 ... 22A, 22B. Are input to the input terminals of That is, the acoustic signal detected by the sensor is converted into a voltage value through the termination resistors 211, 212, 213, ... 21A, and 80 channels at the input terminal of the analog multiplexers 221, 222, 223 ... 22A. The auxiliary signal sensed by the auxiliary sensor is converted into a voltage value through the terminating resistor 21B and input to eight channels at the input terminal of the analog multiplexer 22B.

When the audio signal and the auxiliary signal are applied to the input terminals of the analog multiplexers 221, 222, 223 ... 22A, 22B, the timing signal generator 220 firstly converts the applied sound signal and the auxiliary signal into a serial signal. A group signal is output to the analog multiplexers 221, 222, 223 ... 22A to enable the analog multiplexers 221, 222, 223 ... 22A. A channel signal is applied to the analog multiplexers 221, 222, 223 ... 22A to sequentially select an audio signal input to 80 channels, and apply it to the input terminal of the AGC amplifier 230. Then, the AGC amplifier 230 amplifies the applied sound signal by the AGC data of the AGC data receiver 260 and applies it to the analog / digital converter 240. At this time, the switching unit 232 is switched by the switching signal of the timing signal generator 220 and maintains an on state while the sound signal is input from the sound signal channels CH ₁ to CH ₈₀ . That is, while enabling the analog multiplexers 221, 222, 223 ... 22A, the sound signals of the respective sound signal channels CH ₁ to CH ₈₀ are applied to the analog / digital converter 240 while being kept on. Be sure to

The timing signal generator 220 sequentially selecting the sound signals of the sound signal channels CH ₁ to CH ₈₀ outputs a group signal to the analog multiplexer 22B to select the auxiliary signal channel, thereby causing the analog multiplexer 22B to be input. Let it be. In addition, the channel signal is applied to the analog multiplexer 22B to sequentially select the auxiliary signals input to the eight channels and apply them to the analog / digital converter 240. At this time, the switching unit 231 is switched by the switching signal of the timing signal generator 220 and maintains an on state while the auxiliary signal is input from the auxiliary signal channels CH ₈₁ to CH ₈₈ . That is, while enabling the analog multiplexer 22B, the auxiliary signal of each sound signal channel CH ₈₀ to CH ₈₈ is applied to the analog / digital converter 240 while maintaining the on state.

Here, the group signal for enabling the analog multiplexers 221, 222, 223 ... 22A, 22B is the analog multiplexers 221, 222, 223 ... 22A while enabling the analog multiplexers 221, 222, 223 ... 22A. The high level group signal is applied only to 22A) and the low level group signal is applied to the remaining analog multiplexer 22B, and the high level group is enabled only to the analog multiplexer 22B while enabling the analog multiplexer 22B. The signal is applied and the low level group signal is applied to the remaining analog multiplexers 221, 222, 223 ... 22A.

As such, the analog / digital converter 240, which is selected under the control of the timing signal generator 220 and is amplified by the AGC amplifier 230, receives the applied sound signal and the auxiliary signal directly applied thereto, and converts the analog sound signal into a digital signal. The data is converted and applied to the data transmission unit 250.

Accordingly, the data transmitter 250 synthesizes a group signal applied from the timing signal generator 220 and a multi-channel sound signal digitally and multiplexed by a channel signal and a switching signal to be carried on the ship via the cable 300. It transmits to the located sound signal processing apparatus 400.

Therefore, the sound signal processing apparatus 400 of the ship can accurately determine the type of object in the water, the distance and the moving direction, etc. based on the sound signal detected by the sound signal sensor 100.

As described above, according to the present invention, a channel into which an acoustic signal detected by a plurality of sensors is input and a channel into which an auxiliary signal detected by a plurality of auxiliary sensors are input are sequentially formed by a group signal, a channel signal, and a switching signal of a timing signal generator. By selecting and transmitting the sound signal and the auxiliary signal to the rear end, it is possible to multiplex and process the sound signal and the auxiliary signal input to a plurality of channels.

Claims (1)

An acoustic signal transmission device comprising: a terminating resistor for converting an acoustic signal and an auxiliary signal of each channel detected by a sensor of an acoustic signal sensor and an auxiliary sensor into a voltage value, and timing for generating a group signal, a channel signal, and a switching signal An analog multiplexer for switching each signal by switching between a signal generator, a group signal and a channel signal of the timing signal generator, an AGC amplifier for amplifying a signal of the sound signal channel, and a switching signal of the timing signal generator A sound / auxiliary signal channel selection device comprising a switching unit for selecting an audio signal and an auxiliary signal and applying the same to an analog / digital converter.