KR101191610B1 - Trs transmission system in the ship using the plc - Google Patents

Abstract

PURPOSE: A TRS transceiving system using a PLC inside a ship is provided to omit additional cable for transferring a TRS signal and to construct a communication network by one power line. CONSTITUTION: A TRS(Trunked Radio Service) repeater(102) converts a TRS signal into an Ethernet signal. A PLC(Power Line Communication) converter(106) converts the inputted PLC signal, inputted through a power line(108), into an Ethernet signal. An Ethernet converter(110) converts the PLC signal of the PLC converter into the Ethernet signal. An RHU(114) converts an RF signal received from a terminal into the Ethernet signal. [Reference numerals] (100) TRS system; (102) TRS relay; (106) PLC converter; (AA) Ethernet converter1; (BB) Ethernet converter2; (CC) Ethernet converter3; (DD) Terminal1; (EE) Terminal2; (FF) Terminal3; (GG) Hull

Description

TRS transmission / reception system using PLC inside a ship under construction {TRS TRANSMISSION SYSTEM IN THE SHIP USING THE PLC}

The present invention relates to a TRS transmission / reception system using a PLC in a ship under construction, and more particularly, to build a PLC communication network using a power line installed inside a ship that does not reach TRS radio signals, even in a ship under construction in a shipyard. The present invention relates to a TRS transmission / reception system using a PLC in a ship under construction to enable TRS wireless communication.

Shipyards that build ships typically use TRS (Trunked Radio Service) to establish a communication network for workers working inside and outside the ship. TRS is a wireless mobile communication system that uses many frequencies of wireless base station jointly by many subscribers. It has excellent security and call quality, and can make group calls, so that many workers work at long-distance factories, shipyards, It is widely used in plants and labor facilities.

Ships have dozens or hundreds of compartments inside the hull, most of which are isolated by steel plates so that no external radio signals are transmitted to them. In such a situation, in order to establish a TRS wireless communication network, remote equipment capable of transmitting TRS communication signals into individual compartments should be installed inside the ship.

1 is a block diagram showing a connection state of a TRS communication network in a ship according to the prior art.

As shown in FIG. 1, an RF cable 13 is used to transmit a TRS signal to a compartment inside the hull.

The TRS repeater 11 transmits a wireless TRS signal from the TRS base station input from the antenna 12 to each compartment through the RF cable 13 or transmits a TRS signal input from each compartment through the antenna 12. Output to the TRS base station.

The RF cable 13 is installed in each compartment, the end of the RF cable 13 to change the communication signal transmitted by wire to a wireless TRS signal RU to deliver to the terminal 15 carried by the operator inside the compartment (Remote Unit) 14 is connected. The RU 14 transmits and receives a TRS signal through the TRS repeater 11 and the RF cable 13 so that a TRS communication network inside and outside the ship can be established.

However, in order to build a communication network in such a manner, the RF cable 13 must be installed inside the compartment of the hull, which is being dried. In the case of large ships, it is time-consuming and expensive to install the RF cable 13 in hundreds of compartments, and once the ship is completed, the RF cable 13 must be dismantled. There was a problem of inefficiency.

Republic of Korea Patent Application No. 2002-7013941

The present invention for solving the above problems is connected to the TRS repeater outside the ship and the hull compartment inside the ship under construction in the ship using a power line communication network that transmits and receives a communication signal along the power line basically installed during ship construction work An object of the present invention is to provide a TRS transmission and reception system.

In addition, the present invention uses a PLC converter for converting the TRS signal input and output from the TRS repeater into a power line communication signal, and the inside of the compartment by using an Ethernet converter that converts the signal in reverse, there is no need to install a separate communication cable already inside and outside the hull It is an object of the present invention to provide a TRS transmission / reception system using a PLC inside a ship in construction that allows the power line connecting the TRS communication network to be used as a communication line.

The present invention devised to solve the above problems is a communication system for transmitting a TRS signal which is a work communication means through a power line 108 installed for supplying power to a compartment inside a ship being built in a shipyard for building a ship, A TRS repeater 102 which receives the TRS signal transmitted from the TRS base station and converts the TRS signal into an Ethernet signal; Ethernet signal inputted from the TRS repeater 102 connected by the UTP cable 104 is converted into a PLC signal and output through the power line 108, or PLC signal input through the power line 108 is converted into an Ethernet signal PLC converter 106 for outputting to the TRS repeater 102 via the UTP cable (104); Installed inside the compartment at the end of the power line 108, and converts the PLC signal output from the PLC converter 106 to an Ethernet signal to output through the UTP cable 112, or through the UTP cable 112 An Ethernet converter 110 for converting an input Ethernet signal into a PLC signal and outputting the same through the power line 108; The UTP cable installed inside the compartment converts the Ethernet signal output from the Ethernet converter 110 into an RF signal and transmits it to the terminal 15 or converts the RF signal transmitted from the terminal 15 into an Ethernet signal. It includes; RHU 114 to transmit to the Ethernet converter 110 through 112.

According to the present invention, since it is not necessary to install a separate cable to transmit the TRS signal inside the compartment, cost and time are saved, and a ship construction cost can be achieved simultaneously by supplying power and establishing a communication network with a single power line. Has the economic effect of being saved.

In addition, according to the present invention, since only the RU installed inside the compartment after the construction of the ship has to be dismantled, there is an effect of increasing the work efficiency without a separate effort for dismantling the communication line.

1 is a block diagram showing a connection state of a TRS communication network in a vessel according to the prior art.
2 is a block diagram showing a connection state of a TRS system according to an embodiment of the present invention.
3 is a block diagram showing components of a TRS repeater.
4 is a block diagram showing the components of a PLC converter and an Ethernet converter.
5 is a block diagram illustrating components of an RHU.

Hereinafter, with reference to the drawings will be described "TRS transmission and reception system using the PLC in the ship under construction" (hereinafter referred to as "TRS system") according to the embodiment of the present invention.

2 is a block diagram showing a connection state of the TRS system according to an embodiment of the present invention, Figure 3 is a block diagram showing the components of the TRS repeater, Figure 4 is a block diagram showing the components of the PLC converter and Ethernet converter, 5 is a block diagram showing the components of the RHU.

The TRS system 100 of the present invention transmits the TRS signal transmitted from the TRS base station into the compartment of the hull, or transmits the TRS signal transmitted from the compartment to the base station through the TRS repeater 102.

The TRS system 100 includes a TRS repeater 102, a PLC converter 106, an Ethernet converter 110, and an RHU 114.

The TRS repeater 102 is connected to the PLC converter 106 through the UTP cable 104, the PLC converter 106 is connected to the Ethernet converter 110 in the compartment of the hull through the power line 108. The Ethernet converter 110 is again connected to the RHU 114 through the UTP cable 112, the RHU 114 is wirelessly connected to the terminal 15.

The TRS repeater 102 receives the TRS signal on the air, converts it into a digital Ethernet signal, and transmits the TRS signal to the PLC converter 106 through the UTP cable 104. On the contrary, the digital Ethernet signal transmitted from the PLC converter 106 is converted into a wireless TRS signal by the TRS repeater 102 and transmitted to the TRS base station through the antenna 12.

For this operation, the TRS repeater 102 includes a system capable of converting TRS signals and Ethernet signals.

3 shows a configuration of the TRS repeater 102. The forward RF signal input from the duplexer 102-1 passes through a low noise amplifier (LNA) of a front end unit (FEU) 102-2. It is input to UDC (Up Down Converter) 102-3. The RF signal input to the UDC 102-3 is converted into an IF signal (intermediate frequency signal) for DTU (Digital Transceiver Unit) 102-4 input, and the IF signal is an ADC (Analog) of the DTU 102-4. Input via Digital Converter.

The DTU 102-4 converts the forward IF signal input through the ADC into a digital signal, and then converts the forward IF signal into a signal (Ethernet signal) of a dedicated Ethernet frame for lower UTP transmission, thereby converting the Ethernet PHY inside the DTU 102-4. Send to the lower part through.

On the contrary, in the reverse direction, after the FPGA in the DTU 102-4 processes the digital signal of the UTP dedicated Ethernet frame inputted through the lower RHU 114 or the PLC converter 106, the digital analog converter (DAC) IF signal is transmitted to the UDC (102-3). The UDC 102-3 converts the input IF signal into an RF signal and inputs it to a high power amplifier (HPA) inside the FEU 102-2. The signal input to the HPA is amplified and transmitted to the TRS base station.

On the other hand, the PLC converter 106 serves as an Ethernet hub and a converter for power line communication at the same time, and converts an Ethernet signal into a PLC signal or a PLC signal into an Ethernet signal and outputs the converted signal.

4 illustrates the configuration of the PLC converter 106 and the Ethernet converter 110. The PLC converter 106 and the Ethernet converter 110 are configured by the same signal processing unit, but only operate in opposite directions.

The PLC converter 106 converts the Ethernet signal received from the TRS repeater 102 through the UTP cable 104 in the forward direction into a PLC signal suitable for power line communication in the FPGA 106-2, and then the PLC PHY 106-3. To pass). This PLC signal is transmitted to the lower Ethernet converter 110 through the PLC PHY 106-3.

In the reverse direction, the PLC signal transmitted from the lower Ethernet converter 110 is received by the FPGA 106-2 through the PLC PHY 106-3 and converted into an Ethernet signal for transmission to the upper TRS repeater 102. After that, it transmits to the upper level through the Ethernet PHY 106-1.

The PLC signal output from the PLC converter 106 is transmitted to the inside of the compartment along the power line 108 through the outlet. An outlet is also installed at the end of the power line 106, the PLC signal is transmitted to the Ethernet converter 110 connected to the outlet. The Ethernet converter 110 converts the input PLC signal into a digital Ethernet signal, and transfers the converted digital Ethernet signal to the RHU 114 through the UTP cable 112.

5 shows the configuration of the Ethernet converter 110. In the Ethernet converter 110, the signal conversion in the opposite direction of the signal conversion that occurs in the PLC converter 106 is performed while the Ethernet signal or the PLC signal is input or output in the forward or reverse direction. do.

The RHU 114 receiving the Ethernet signal from the Ethernet converter 110 converts the Ethernet signal into a TRS signal (wireless RF communication signal) and outputs the converted Ethernet signal.

Power Line Communication (PLC) is a new technology that transmits voice, text data, and video using power lines that supply electricity to homes, offices, and factories. Home networking and home automation are possible.

Current currents commonly used in factories are the 60 kHz frequency and voltages of 110 or 220 volts. Power line communication enables high speed communication by sending a communication signal in a frequency band other than 60 Hz, that is, a frequency band of 1 to 30 MHz.

The communication signal on the power line is separated from the power and communication signal through the router installed around the transformer and the modem installed in the factory or shipyard, so that the end user can use the communication service on the power line.

Such power line communication can be used with only 60 to 70% of the cost of the high-speed Internet service equipment using the existing optical communication cable network, and there is an advantage that the communication fee is greatly reduced because there is no need to pay the line fee.

In addition, home networking can be implemented using power lines already installed in factories or shipyards without additional wiring work. There is no need to install a local area network (LAN), which is expensive.

The RHU 114 performs the final service in each compartment inside the hull.

In the forward direction, the Ethernet signal transmitted from the upper Ethernet converter 110 through the UTP cable 112 is received through the Ethernet PHY in the DTU 114-4 and converted into a parallel digital signal for transmission from the FPGA to the DAC unit. . This signal passes through the DAC, is converted into an IF signal of an appropriate level, and transmitted to the UDC 114-3. The UDC 114-3 receives the forward IF signal, converts it into an RF signal, and transmits the RF signal to the HPA of the FEU 114-2. The HPA amplifies the input RF signal to an appropriate level and transmits the RF signal to the service terminal 15 through the duplexer 114-1.

In the reverse direction, the UDC 114-3 receives the RF signal input through the LNA of the FEU 114-2, converts it into an IF signal of an appropriate level for the DTU 114-4 input, and the DTU 114-4. To the ADC. The IF signal input through the ADC of the DTU 114-4 is converted into a digital signal through the ADC and input to the FPGA. The FPGA converts the input signal into an Ethernet signal and transmits the input signal to the Ethernet PHY.

Meanwhile, in the present invention, the power line 108 refers to an AC power line for supplying power to the completed hull, not a communication power line separately installed to establish a TRS communication network. In other words, rather than establishing a communication network, a power line installed for use by sailors or workers in a compartment is used together for communication. Power lines are used for communication only during ship construction.

An outlet for power supply of a work tool is installed in the power line of the compartment, in which an Ethernet converter 110 is installed together to separate the work power and the communication signal, of which only the communication signal passes through the RHU 114. 15 is passed.

When the construction of the ship is completed, the power line 108 connected to the inside of the compartment is left as it is, and the PLC converter 106, the Ethernet converter 110, and the RHU 114 which are communication equipment are removed. After the vessel is completed, the power line 108 serves to supply power for normal use and not for communication.

Although the preferred embodiments of the present invention have been described above with reference to the accompanying drawings, the above-described technical configuration of the present invention may be embodied by those skilled in the art to which the present invention pertains without changing its technical spirit or essential features of the present invention. It will be appreciated that the present invention may be practiced as. Therefore, the above-described embodiments are to be understood as illustrative and not restrictive in all respects, and the scope of the present invention is indicated by the appended claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be interpreted as being included in the scope of the present invention.

11: TRS repeater 12: antenna
13: RF cable 14: RU
15: terminal 102: TRS repeater
104, 112: UTP cable 106: PLC converter
108: power line 110: Ethernet converter
114: RHU

Claims (1)

A communication system for transmitting a TRS signal, which is a work communication means, through a power line 108 installed for supplying power to a compartment inside a hull in a shipyard in which a ship is built,
A TRS repeater 102 which receives the TRS signal transmitted from the TRS base station and converts the TRS signal into an Ethernet signal;
Ethernet signal inputted from the TRS repeater 102 connected by the UTP cable 104 is converted into a PLC signal and output through the power line 108, or PLC signal input through the power line 108 is converted into an Ethernet signal PLC converter 106 for outputting to the TRS repeater 102 via the UTP cable (104);
Installed inside the compartment at the end of the power line 108, and converts the PLC signal output from the PLC converter 106 to an Ethernet signal to output through the UTP cable 112, or through the UTP cable 112 An Ethernet converter 110 for converting an input Ethernet signal into a PLC signal and outputting the same through the power line 108;
The UTP cable installed inside the compartment converts the Ethernet signal output from the Ethernet converter 110 into an RF signal and transmits it to the terminal 15 or converts the RF signal transmitted from the terminal 15 into an Ethernet signal. A TRS transmission / reception system using a PLC inside a ship in construction, including; RHU (114) for transmitting to the Ethernet converter (110) through (112).

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