KR100952737B1 - Coupler for surge current - Google Patents

Abstract

The present invention relates to an overcurrent blocking coupler, and provides an overcurrent blocking coupler capable of preventing damage to each module constituting the system as well as damage to the coupler when an overcurrent occurs due to a short and operator error. In the present invention for this purpose, in the RF system coupler having an input terminal, an output terminal and a CPL terminal, the RF signal and the DC voltage is supplied to the input terminal at the same time, and having a path for the DC voltage between the input terminal and the output terminal, The first overcurrent blocking device is characterized in that connected in series. By the above configuration, the present invention can reduce the system failure rate, reduce the cost required accordingly, and greatly reduce the time required for recovery due to the failure since the cause can be quickly identified for the failure occurred during the operation. It can be effective.

RF Coupler, Overcurrent Blocking, CPL

Description

Overcurrent Disconnect Coupler {Coupler for surge current}

The present invention relates to an overcurrent blocking coupler, and in particular, as a coupler using a RF (Radio Frequency) signal and a DC voltage together, by adding an existing DC blocking circuit to smooth the flow of DC voltage and maintaining system characteristics, It is an overcurrent blocking coupler that can be automatically shut off to protect the system.

In general, RF couplers are used in communication systems and RF modules, and are classified into various types according to their use and performance.

Conventional couplers have a role of connecting signals to each other and outputting a signal reduced in size for a specific use.

2 is a schematic configuration diagram of a conventional coupler.

The coupler 200 transmits an RF signal, an input terminal 210 through which an RF signal and a DC voltage are input, an output terminal 220 for outputting a main signal, and a power source disposed outside to turn on and off power. And a switch 230 and a CPL terminal 240 for outputting a signal reduced by a predetermined amount.

By such a configuration, when the conventional coupler 200 receives the RF signal and the DC voltage to the input terminal 210, the RF signal and the DC voltage are simultaneously output to the output terminal 220 through the capacitor C ₃ and the inductor. By outputting the signal reduced to a predetermined magnitude by (L ₁ , L ₂ ) and the capacitor (C ₁ , C ₃ ) to the CPL terminal 240 between each system or module connected to the input terminal 210 and the output terminal 220 It carries RF signal and DC voltage.

However, such a conventional coupler does not have a blocking circuit for current and power therein, and thus the signal line inside the coupler is damaged when an overcurrent occurs. In particular, when an overcurrent occurs in a system connected to an output terminal, a system connected to an input terminal as well as a coupler is connected. This affects all modules of the system, which causes various problems in system operation.

The present invention has been proposed to solve the above problems, and to provide an overcurrent blocking coupler that can prevent the damage of each module constituting the system as well as the damage of the coupler in the event of overcurrent due to short and operator error. The purpose.

In the present invention for achieving the above object, in the RF system coupler having an input terminal, an output terminal and a CPL terminal, the RF signal and the DC voltage is simultaneously supplied to the input terminal, the path for the DC voltage between the input terminal and the output terminal Although provided, the first overcurrent blocking device is connected in series to the path.

Preferably, it may further include a second over-current blocking device connected in parallel between the output terminal and the CPL terminal.

The overcurrent cut-off coupler according to the present invention, in the RF coupler that mixes the RF signal and the DC voltage, adds an over-current cut-off circuit to prevent the system damage caused by the overcurrent generated during operation, thereby reducing the system failure rate, and accordingly Since the cost can be reduced and the cause can be quickly identified for defects occurring during the operation, the time required for recovery due to the defect can be greatly reduced.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic diagram of an overcurrent blocking coupler according to an exemplary embodiment of the present invention.

As shown in FIG. 1, the overcurrent blocking coupler 100 according to an exemplary embodiment of the present invention is configured to cut off current and voltage when an overcurrent occurs, and not only a main signal such as an RF signal and a DC voltage, but also a coupled signal. It is configured to cut off voltage and current.

More specifically, the over-current blocking coupler 100 includes an input terminal 110 through which an RF signal and a DC voltage are input, an output terminal 120 for outputting a signal to a connected system, and a power switch disposed on the outside to turn off a power supply. A coupler for an RF system having a 130 and a CPL terminal 140 for reducing and outputting an input signal to a predetermined size, comprising a DC voltage path between the input terminal 110 and the output terminal 120, The first overcurrent blocking device F ₁ is connected in series.

In addition, the overcurrent blocking coupler 100 includes a second overcurrent blocking device F ₂ connected in parallel between the output terminal 120 and the CPL terminal 140.

Here, the RF signal flows through a pass through the capacitor C ₃ , the DC voltage flows through a pass through the first overcurrent blocking element F ₁ , and the coupled RF signal flows through the capacitor C ₂ and the inductor L _2. ) And the coupled DC voltage flows through the second overcurrent blocking element F ₂ .

The operation of the overcurrent blocking coupler 100 according to the embodiment of the present invention configured as described above will be described.

First, when an RF signal and a DC voltage are simultaneously input to the overcurrent blocking coupler 100 through the input terminal 110, the RF signal and the DC signal are separated therein.

The separated signal is configured in such a way that the combined signal is output again through the capacitor C ₃ , the inductor L ₁ , and the first overcurrent blocking device F ₁ . In this case, it is designed to protect the RF signal line and not affect the RF signal characteristics.

Here, when an overcurrent occurs from a system or a module connected to the output terminal 120 of the overcurrent blocking coupler 100 on the system, the first overcurrent blocking device F ₁ is turned off to cut off the circuit, thereby stopping the supply of DC voltage and overcurrent. It prevents the damage of the system by blocking the effect on the whole system in advance.

At this time, the RF signal can be supplied through the input terminal 110 and the output terminal 120 without change, and the coupling signal is also supplied without any problem.

With this configuration, the main system (RF signal, DC voltage) is provided without loss in the RF system, etc., and the other terminal is reduced to a certain size to provide a constant level at an appropriate level, and the main path through which the RF signal and the DC voltage flow. By connecting the over-current blocking device (F ₁ ) to the over-current phenomenon that can affect the entire system can be protected to protect the system, it can also minimize the communication failure.

In addition, it is possible to identify the cause more conveniently and quickly when there is a problem in the coupler and system, which can greatly reduce the cost and time required by A / S in operation.

1 is a schematic configuration diagram of an overcurrent blocking coupler according to an embodiment of the present invention.

2 is a schematic configuration diagram of a conventional coupler.

Explanation of symbols on the main parts of the drawings

100: overcurrent blocking coupler 110: input terminal

120: output terminal 130: power switch

140: CPL terminal

Claims (2)

In the RF system coupler having an input terminal, an output terminal and a CPL terminal, An RF signal and a DC voltage are simultaneously supplied to an input terminal, and the DC voltage path is provided between the input terminal and the output terminal, wherein the first overcurrent blocking device is connected in series with the path. The method of claim 1, And a second overcurrent blocking device connected in parallel between the output terminal and the CPL terminal.

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