KR0126900Y1 - Signal transmission module of acoustic counter measure - Google Patents

Abstract

The present invention relates to a signal transmission module (Telemetry Data Module) for transmitting a signal received from the acoustic module (Acoustic Module) of the acoustic counter measure (Acoustic Counter Measure) for detecting the acoustic signal in the water to the ship signal receiver, The signal transmission module, which was composed of a plurality of assemblies, is divided into two parts, an analog multiplexer part and a digital multiplexer / driver part, and the analog multiplexer part is output from an analog multiplexer and an analog multiplexer sequentially outputting signals received from an acoustic module. A gain amplifier for amplifying the signal at 20 dB, the multiplexer / driver section including an analog / digital converter for converting the amplified signal into a digital signal, a digital multiplexer for sequentially outputting the converted signal, and a driver for driving serial data Configure By assembling the two PCBs in one case, the present invention relates to a signal transmission module minimizing the effect of noise coming in and out of a signal transmission and reception line and reducing the mounting space.

Description

Signal transmission module of sound counter system

1 is an exemplary configuration block diagram showing an acoustic counter system.

2 is a block diagram showing in detail the vibration isolation module and the sound module of FIG.

3 is a block diagram showing in detail the signal transmission module of FIG.

4 is a block diagram of a signal transmission module of the present invention.

* Explanation of symbols for main parts of the drawings

100: ship 110: data processing unit

120: signal receiver 200: towing cable

300: sound sensor unit 310: vibration isolation module

311: tension sensor 312: buffer

320: signal transmission module 320A: analog multiplexer

320B: Digital Multiplexer / Driver Section

321,321 ′, 322: Analog Multiplexer

323: Automatic Gain Control Amplifier + Analog-to-Digital Converter

323A: Automatic gain adjustment amplifier 323A ′: Gain amplification means

323B: Analog-to-Digital Converters 324: Digital Multiplexers

325 driver 330 sound module

331: hydrophone 332: preamplifier

333: protection circuit 334: seawater noise compensation circuit

335,336: Roll sensor 337: Depth sensor

338: direction sensor 340: tail rope assembly

The present invention relates to a telemetry data module in an acoustic sensor unit of an acoustic counter measure for detecting underwater acoustic signals, and more particularly, to miniaturization of a signal transmission module composed of several assemblies. will be.

In general, the acoustic countermeasure system that detects the acoustic signal in the water and performs the necessary processing detects the acoustic wave, which is fixed to the vessel to install the acoustic sensor on the vessel, and to the submarine to install the acoustic sensor on the sea floor and towing cable. There is a towed doll.

The towed acoustic counter module (Towed Acoustic Counter Module) detects the acoustic signal in the water as shown in FIG. 1 and converts it into an electrical analog signal and converts it into a digital signal again signal receiving unit The electric signal received from the towing cable 200 and the acoustic sensor unit 300 connecting the acoustic sensor unit 300 and the ship and the underwater acoustic sensor unit 300 to be transmitted to the 120 in the ship 100 A signal receiver 120 and a data processor 110 for classifying, retrieving, and processing the signal data received from the signal receiver 120 are transmitted to the data processor 110.

In addition, the acoustic sensor unit 300 is a vibration isolation module (310) to attenuate the initial vibration and the signal transmission module 320 for converting the analog signal input to the digital signal and transmits the acoustic signal and the acoustic signal The module 330 and the tail rope assembly 340 for attenuating the vibrations emitted.

Hereinafter, the operation of the acoustic sensor unit 300 will be described in detail with reference to FIGS. 2 and 3.

The acoustic module 330 is a module that receives sea sound signals and converts them into electrical signals and removes seawater noise flowing through the signals. Hydrophone: 331, a preamplifier (Pre-Amp: 332) for amplifying a fine signal, a protection circuit (Input Protector: 333) to protect the hydrophone 331 from overcurrent, and the tilt of the acoustic sensor unit 330 Roll sensor (335,336) for detecting a load, Sea noise correction circuit (334) to compensate for noise due to sea water, and depth sensor (337) for measuring the depth of the acoustic sensor unit 330 And an orientation sensor 338 for measuring the orientation of the acoustic sensor unit 330.

The hydrophone 331 and the preamplifier 332 have three groups in one package at intervals of 120 °, and since these packages are arranged in 32, each group has 32 channels.

Underwater acoustics are propagated by the mechanical coarse action of seawater particles, and the vibration causes a volume change in the hydrophone 331 with a magnitude proportional to the product of the square of the frequency and amplitude, thereby causing the hydrophone 331 to transmit an electrical energy signal. Occurs.

The electrical energy signal is expressed in the form of current and voltage. Impedance coupling considering the sensitivity with the output preamplifier 332 of the hydrophone 331 may transmit the signal of the hydrophone 331 farther.

The preamplifier 332 amplifies the weak signal of the output terminal of the hydrophone 331, and processes the small signal of the hydrophone 331 after the emphasis processing to compensate for the attenuation according to the progress of the sound wave. To easily amplify.

The emphasis refers to a pre-emphasis that changes a signal to generate a high frequency spread and a de-emphasis that extends low frequency components to high frequencies. (Signal To Noise Ratio: SNR) is increased. In more detail, a signal in which most energy exists in a low frequency region such as sound waves does not cause a large frequency deviation due to a high frequency component of the same magnitude. Therefore, the energy of the signal is not uniformly distributed over the allocated bandwidth, but the energy of the high frequency portion is less distributed, which results in a weak signal to noise ratio for the high frequency signal.

Pre-emphasis and de-emphasis methods to overcome this weak point have high signal level and noise can be suppressed to some extent in the transmitter, so the signal to be modulated is intentionally changed by extending high frequency compared to low frequency. In addition, since the signal level is high in the receiver and noise can be suppressed to some extent, the signal to be demodulated is intentionally changed by extending the low frequency compared to the high frequency.

When the signal is amplified by the preamplifier 332, the noise is also amplified together in the signal, thereby limiting the amplification circuit bandwidth of the preamplifier 332 by considering not only the ambient noise but also the elimination of the noise factor of the amplifier itself. It is decreasing.

The amplification element itself includes noise generated by the amplifying element, 1 / f noise, shot noise, and Johnson noise, which occur in the low pass filter frequency band, and 1 / f noise occurs in the low pass band, and Johnson noise, Shot noise is called white noise because it appears above the frequency modulation band and is uniformly distributed in the frequency band.

As the signal processed as described above passes through the sea noise compensation circuit 334, the noise signal in the sea water existing in the low frequency region is blocked, and the attenuated high frequency component signal is compensated and transmitted to the signal transmission module 320.

The signal transmission module 320 has three groups. The signal receiving unit performs pulse code modulation and then multiplexes to condition and digitalize the analog signal of the received sound module 330. 120 has a function of transmitting a signal.

The pulse code modulation is a method of transmitting a signal in sequence of numbers, and sampling and quantizing the signal according to size and quantizing the sampled signal to the nearest value of the quantized levels. In this case, if the continuous amount is transmitted in the order of several numbers, it is easier to process, and the channel cost is lowered because the discontinuous number of linearity, signal-to-noise ratio, and reliability are greatly alleviated.

Looking at the detailed operation of the signal transmission module 320, the signal received, amplified, and high frequency compensated by the sound module 330 is output to the analog multiplexer (Analog Mutiplexer: 321, 322) in the form of a current at the output of the current driver (not shown). When input, the analog multiplexers 321 and 322 sequentially send the received signal to an Auto Gain Control Amp (323A) to amplify the signal to a size suitable for digital conversion, and the amplified analog signal is converted to an analog / digital converter ( Analog / Digital Conveter: 323B), the analog signal is sampled and quantized into corresponding digital signal according to the magnitude and converted into digital signal.

The converted digital signal is output to the driver 325 as serial data from a digital multiplexer 324, and the driver 325 receives the serial data output from the digital multiplexer 324 as a signal receiver. In order to prevent the loss generated during signal transmission before transmitting to 120, the signal level is left unchanged and power is increased.

The serial data processed as described above is a vibration isolation module that buffers vibrations in a buffer by detecting attenuation of vibration generated from the towing and towing cables and vibration caused by the towing with a tension sensor 311. Via the towing cable (200) via the 310 is transmitted to the signal receiving unit 120 installed on the vessel 100 of the vessel.

In addition, the depth sensor 337 and the orientation sensor 338 of the acoustic module 330 measure the azimuth and depth information, which are examples of the acoustic sensor unit 300, respectively, such as a sound signal processing route in the signal transmission module 320. The pulse code is modulated and digitalized and transmitted to the signal receiver 120 as an acoustic signal.

The signal receiver 120 processes the received signals and transmits the received signals to the data processor 110. The data processor 110 processes the received signal data such as classification and search.

The signal transmission module 320 is used in the sound counter system as it was used in the conventional line array sound wave detectors, two analog multiplexers 321 and 322, an automatic gain adjustment amplifier + an analog / digital converter 323, and a digital multiplexer ( 324 and five assemblies composed of a driver 325 has a large effect of noise coming in through the signal transmission and reception lines between the respective assemblies, and is divided into three groups to process the signals of the input sound module 330. When the sound transmission module 320 is configured in three groups, not only a lot of mounting space is required but also the effect of noise increases.

The present invention is designed to solve the above problems, and the signal transmission module consisting of five conventional assemblies is designed on two PCBs (Print Circuit Board) and the two PCBs are assembled together in one case to minimize the mounting space. It is an object of the present invention to provide a signal transmission module of an acoustic countermeasure system that minimizes the influence of external noise coming through a signal transmission / reception line.

The present invention consists of an analog multiplexer portion 320A and a digital multiplexer / driver portion 320B as shown in FIG. 4 and are assembled in one case.

The analog multiplexer unit 320A includes an analog multiplexer 321 and a gain amplification unit (Gain Amp: 323A ′), and the multiplexer / driver unit 320B includes an analog / digital converter 323B and a digital multiplexer 324. Driver 325.

The configuration as described above is that 32 analog sound sensor signals having 4 channels (total 88 channels), respectively, and 32 channel sound sensor signals and 4 according to the number of channels of the sound module 330 of the sound countermeasure system. It consists of 36 channel analog multiplexer (321 ') with input of auxiliary sensor signal of the channel to secure the space of the analog multiplexer board, and replaces the automatic gain adjustment amplifier on the analog gain / digital converter (323) board. The analog multiplexer 321 'and the gain amplification means 323A' on one board to configure the analog multiplexer part 320A on a single board. For example, the analog multiplexer 323B, the digital multiplexer 324, and the driver 325 are configured on a single board to form the digital multiplexer / driver section 320B. It was possible.

The operation of the signal transmission module of the present invention is the same as the conventional signal transmission module except that only 20dB amplification is performed by the gain amplification means 323A 'instead of the conventional automatic gain adjustment amplifier 323A.

The present invention as described above has the effect of minimizing the influence of external noise and reducing the mounting space by dividing the signal transmission module into two PCBs and assembling and miniaturizing it in one case. This is more effective when creating multiple groups.

Claims (2)

Analog multiplexers 321 and 322 for sequentially outputting the signals received from the acoustic module 330 of the sound opposing system to the automatic gain adjustment amplifier 323A, and signals having a size suitable for digitally converting the output signals of the analog multiplexers 321 and 322. An automatic gain adjustment amplifier (323A) for amplifying a signal, an analog / digital converter (323B) for converting the amplified analog signal into a digital signal, a digital multiplexer (324) for outputting the converted digital signal as serial data, and In the signal transmission module 320 of the acoustic countermeasure system comprising a driver 325 for driving serial data and then outputting the serial data, the signal transmission module 320 sequentially outputs the received signals. And an analog multiplexer section 320A comprising gain amplification means 323A 'for amplifying the output of the analog multiplexer 321' to 20 dB. And a digital multiplexer / driver comprising an analog / digital converter 323B for converting the amplified signal into a digital signal, a digital multiplexer 324 for outputting the converted digital signal as serial data, and a driver 325 for driving serial data. Signal transmission module of the sound opposing system, characterized in that consisting of (320B). The signal transmission module according to claim 1, wherein the analog multiplexer unit (320A) and the digital multiplexer / driver unit (320B) are assembled in one case.