KR101036138B1 - A repeating amplifier for time division duplex communication - Google Patents

Abstract

PURPOSE: A repeating amplifier for a time division duplex communication is provided to improve the transmission efficiency for a signal. CONSTITUTION: A signal receiving path(20) supplies the signal transmitted from a terminal device to a main device. A first switch unit(30) is installed between the main device and the signal receiving path. The first switch unit connects the main device to one of the signal receiving path or the signal transmitting path. A second switch part(40) is installed between the transmission path, the receiving path, and the terminal device. The second switch part connects the terminal device to one of the transmitting path or the receiving path.

Description

Relay Amplifier for Time Division Communication {A REPEATING AMPLIFIER FOR TIME DIVISION DUPLEX COMMUNICATION}

The present invention relates to a relay amplifier for time division communication. More specifically, the present invention relates to a time division communication relay amplifier that can be installed without restriction of multiple synchronization in a time division communication system in which a plurality of main devices and terminal devices having respective synchronization signals are connected by one coaxial cable. will be.

In general, the attenuation rate of the signal also increases in proportion to the distance between the main device and the terminal device constituting the communication system. If the signal attenuation rate exceeds a predetermined threshold, communication between the main device and the terminal device becomes impossible. In order to cope with this problem, a relay amplifier is installed to amplify the attenuated signal in a specific section of the communication system in consideration of the signal attenuation rate.However, depending on the communication conditions, the relay amplifier cannot be installed to prevent smooth communication. There is a problem.

This problem is explained by taking a time division communication system that communicates through one coaxial cable as an example.

1 is a view for explaining a time division communication system using one conventional asserted value.

Referring to FIG. 1, one main device and N terminal devices are connected through one ipsilateral cable.

As shown in FIG. 1, when there is only one main device, since there is only one synchronization signal for time division communication between the main device and the terminal device, communication between the main device and the terminal device far from the main device due to attenuation of the signal is lost. Even if not, time-division communication can be performed by applying a relay amplifier at a suitable point of the coaxial cable. That is, there is no problem in that the relay amplifier operates by receiving a synchronization signal from the host device.

However, when a plurality of main devices are provided in the time division communication system, a number of synchronization signals corresponding to the number of main devices are required, which makes it difficult to apply a relay amplifier. This will be described in detail with reference to FIGS. 2 and 3.

FIG. 2 is a diagram illustrating a conventional time division communication system using a plurality of assertions, and FIG. 3 illustrates a multi-synchronous method between a main unit and a terminal device in the conventional time division communication system using the plurality of assertions. It is a figure for following.

2 and 3, when time division communication is performed between a plurality of main devices and a terminal device through one coaxial cable, the synchronization signals outputted from the respective main devices do not coincide, and therefore, the synchronization signals are supplied from these main devices. There is a problem in that it is very difficult to apply a relay amplifier that operates. Reference numeral t ₁₂ of FIG. 3 is a time difference between the synchronization signal and the synchronization signal from the host device 2 of the host device 1 on the basis of the host device 1, t ₁₃ is the time difference between the synchronization signal and the synchronization signal from the host device 3, the host device 1, t _{1N is} the host device This is the time difference between the synchronization signal of 1 and the synchronization signal of the main device N.

As such, when the distance between the main device and the terminal device connected by one coaxial cable increases in the time division communication system, the attenuation of the signal increases in proportion to the increase of the distance. In the case of two or more time division communication main units having different synchronization signals, the relay amplifier cannot be applied to the time division communication system. When the relay amplifier is not installed in the time division communication system, the distance between the main device and the terminal device is fixed due to the signal attenuation according to the distance between the main device and the terminal device and the signal attenuation due to the multi-stage branching of the terminal device on the coaxial cable. If exceeded, there is a problem that time division communication cannot be performed with each other.

An object of the present invention is to provide a time-division communication relay amplifier which can be applied to a time-division communication system to improve signal transmission efficiency.

SUMMARY OF THE INVENTION An object of the present invention is to provide a relay apparatus for time division communication which can be installed without restriction of multiple synchronizations in a time division communication system in which a plurality of main devices and terminal devices having respective synchronization signals are connected by one coaxial cable. do.

Time division communication relay amplifier according to the present invention for solving this problem is installed in the front end of the terminal device for communicating with the time division communication main device, is installed between the main device and the terminal device to amplify a signal transmitted from the main device A transmission path section for supplying the terminal device, a reception path section installed between the terminal device and the main device to supply a signal transmitted from the terminal device to the main device, the main device and the transmission path section, and the reception path Interposed between the first switch unit and the transmission path unit, the reception path unit, and the terminal device to connect the assertion value to one of the transmission path unit and the reception path unit. A second switch for connecting to one of a transmission path section and the receiving path section The first switch unit and the second switch unit is configured to include a position unit, the contact point is changed according to the synchronization signal supplied from the terminal device to connect the main device and the terminal device through the transmission path unit or the terminal device And the assertion value through the receiving path unit.

The transmission path unit may include a band filter for filtering a frequency band of a signal transmitted from the main device to the terminal device, and a first amplifier for amplifying the filtered signal.

The receiving path unit may include a second amplifier for amplifying a signal transmitted from the terminal device to the main device.

The main device, the time division communication relay amplifier and the terminal device is characterized in that connected by one coaxial cable.

The time division communication relay amplifier device is characterized in that the power is supplied from the terminal device.

The claim value is plural, and the time division communication relay amplifier is provided in front of a plurality of terminal apparatuses for time division communication with the plurality of main devices.

According to the present invention, there is an effect that a time-division communication relay amplifier device can be applied to a time-division communication system to improve the signal transmission efficiency.

More specifically, it is possible to provide a time division communication relay amplifier which can be installed without restriction of multiple synchronization in a time division communication system in which a plurality of main devices and terminal devices having respective synchronization signals are connected by one coaxial cable. have.

1 is a view for explaining a time division communication system using one conventional asserted value.
2 is a view for explaining a time division communication system using a plurality of conventional claim values.
FIG. 3 is a diagram for describing a multi-synchronous method between a main device and a terminal device in a time division communication system using a plurality of asserted values shown in FIG. 2.
4 is a diagram illustrating a time division communication relay amplifier according to an embodiment of the present invention.
5 is a diagram illustrating an example in which a time division communication relay amplifier according to an embodiment of the present invention is applied to a time division communication system using a plurality of asserted values.

Prior to describing the embodiments of the present invention, the basic principles of the present invention will be described.

When time division communication is performed between a main device and a terminal device using a coaxial cable, when the distance between the main device and the terminal device becomes far, communication is impossible due to attenuation of a signal. Generally, a relay amplifier is used to compensate for this. However, there is no way to install a relay amplifier in the middle point of the coaxial cable because the time division multiplexing communication device having two or more synchronization signals on one coaxial cable, that is, the synchronization between the devices is not constant when the main device is operated. However, since each terminal device knows exactly when it should synchronize itself with the transmission and reception times, the relay device for time division communication according to the present invention is installed in the vicinity of the terminal device, using the synchronization signal supplied from the terminal device. When the time-division communication relay amplifier device according to the present invention is operated, relay amplification can be performed regardless of the synchronization type of the main apparatus. Using the time-division communication relay amplifier according to the present invention can improve the state in which communication is not possible because the distance between the main device and the terminal device is far, and the terminal device can be installed at a desired position, thereby facilitating the operation of the time-division communication system. have.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention;

4 is a diagram illustrating a time division communication relay amplifier according to an embodiment of the present invention.

Referring to FIG. 4, a time-division communication relay amplifier A according to an embodiment of the present invention is installed at a front end of a terminal device communicating with a time-division communication main device, and includes a transmission path unit 10 and a reception path unit 20. ), The first switch unit 30 and the second switch unit 40 is configured.

Hereinafter, a case in which the main unit, the time-amplifying communication relay amplifier A and the terminal device are connected by one coaxial cable will be described as an example.

The transmission path unit 10 is a means for amplifying a signal transmitted from the main device and provided to the terminal device between the main device and the terminal device.

For example, the transmission path unit 10 may include a band filter 12, a first amplifier 14, and a first attenuator 16.

The band filter 12 is a means for filtering the frequency band of the signal transmitted from the main device to the terminal device.

The first amplifier 14 is a means for amplifying the signal filtered by the bandpass filter 12. The first amplifier 14 may be configured by combining a low noise amplifier or a power amplifier with a low noise amplifier. The band filter 12 and the first amplifier 14 may also be arranged in reverse.

The first attenuator 16 is a means for adjusting the strength of the signal amplified by the first amplifier 14 to an appropriate level.

The reception path unit 20 is a means for supplying a signal transmitted from the terminal device to the main device between the terminal device and the main device.

For example, the reception path unit 20 may include a second amplifier 22 and a second attenuator 26.

The second amplifier 22 is a means for amplifying a signal transmitted from the terminal apparatus to the main apparatus.

The second attenuator 26 is a means for adjusting the strength of the signal amplified by the second amplifier 22 to an appropriate level.

The first switch unit 30 is installed between the main unit, the transmission path unit 10, and the reception path unit 20 to electrically connect the assertion value to any one of the transmission path unit 10 and the reception path unit 20. It is meant for. The first switch unit 30 includes a contact n1 electrically connected to a main device (more specifically, a distributor on the main device side), a contact n2 electrically connected to the transmission path unit 10, and a reception path unit 20. It consists of a contact n3 electrically connected to).

The second switch unit 40 is installed between the transmission path unit 10, the reception path unit 20, and the terminal device to connect the terminal device to any one of the transmission path unit 10 and the reception path unit 20. It is meant for. The second switch unit 40 is a contact n4 electrically connected to the terminal device, a contact n5 electrically connected to the transmission path unit 10, and a contact n6 electrically connected to the reception path unit 20. Is done.

The first switch unit 30 and the second switch unit 40 are changed in contact with the synchronization signal supplied from the terminal device to connect the main device and the terminal device through the transmission path unit 10 or to the terminal device and the claimed value. The connection is made through the reception path unit 20.

This will be described in more detail by dividing it into a transmission period for transmitting a signal from the main device to a terminal device and a reception period for receiving a signal from the terminal device.

1) Transmission period (period to transmit signal from main device to terminal device)

In the transmission period, the contacts n1 and n2 of the first switch unit 30 are electrically connected according to the synchronization signal supplied from the terminal device, and the contacts n4 and n5 of the second switch unit 40 are electrically connected. As a result, a transmission path comprising a contact device n1 and n2 of the main device, the first switch unit 30, the contact path unit 10, the contacts n4 and n5 of the second switch unit 40, and the terminal device is formed. Signal transmission to the terminal device is made.

2) Receive period (period during which the main device receives a signal from the terminal device)

In the reception period, the contacts n1 and n3 of the first switch unit 30 are electrically connected according to the synchronization signal supplied from the terminal device, and the contacts n4 and n6 of the second switch unit 40 are electrically connected. As a result, a reception path is formed by the terminal device, the contacts n4 and n6 of the second switch unit 40, the reception path unit 20, the contacts n3 and n1 of the first switch unit 30, and the main device. Signal transmission from the host to the host device takes place.

In this way, the terminal apparatus communicates with the main apparatus, finds synchronization signals related to transmission and reception, and performs communication using an accurate transmission / reception period. This signal consists of alternating "1" and "0" signals, and supplies power from the terminal equipment to the entire time division communication relay amplifier A and provides a synchronization signal.

According to the synchronization signal of the terminal device, the switch unit receives one time and transmits another time. Even if there is another main device having a different synchronization time, the time-amplifying relay relay A only refers to the synchronization signal of each terminal device. Therefore, even if a system having several synchronization periods is operated on one coaxial cable, it is normal regardless. It can work.

On the other hand, the time-division communication relay amplifier A according to an embodiment of the present invention is preferably configured to be operated by receiving power from a terminal device installed in the vicinity.

In addition, when there are a plurality of claims for time division communication, it is preferable that the time division communication relay amplifier A according to an embodiment of the present invention be configured to be installed in front of a plurality of terminal devices for time division communication with a plurality of main devices. Do.

This will be described in more detail with reference to FIG. 5.

5 is a diagram illustrating an example in which a time-division communication relay amplifier A according to an embodiment of the present invention is applied to a time-division communication system using a plurality of asserted values.

Referring to FIG. 5, a terminal device that performs time division communication with the main device 1 is a terminal device 1-1, terminal devices 1-2 through 1 -N. Device 3-2 to terminal device 3-N.

In this case, in consideration of the attenuation rate of the signal, a time division communication relay amplifier A according to an embodiment of the present invention is installed in front of the N-th terminal devices 1-N and the terminal device 3-N. As described above, these time division communication relay amplifiers A are operated in accordance with the synchronization signals supplied from the terminal apparatus 1-N and the terminal apparatus 3-N, respectively.

According to this, in spite of attenuation of signals due to various factors, the time division communication relay amplifier A is installed at the front end of the terminal apparatus 1-N and the terminal apparatus 3-N, and thus, between the main apparatus 1 and the terminal apparatus 1-N. Communication and communication between the master device 3 and the terminal device 3-N are smoothly performed. In addition, although the synchronization periods of the main device 1 and the main device 3 are different from each other, the time-amplified relay relay amplifier A does not receive the synchronization signals from the main devices, but rather the terminal devices 1-N and the terminal devices 3, which are just behind the terminal devices. Since it is supplied from N, it operates regardless of the synchronization signal of the main devices.

Although the technical spirit of the present invention has been described above with reference to the accompanying drawings, the present invention has been described by way of example and is not intended to limit the present invention. In addition, it is obvious that any person skilled in the art may make various modifications and imitations without departing from the scope of the technical idea of the present invention.

A: Time Division Communication Relay Amplifier
10: transmission path part
12: band filter
14: first amplifier
16: first attenuator
20: receiving path part
22: second amplifier
26: second attenuator
30: first switch unit
40: second switch unit

Claims (6)

In the time-division communication relay amplifier installed in front of the terminal device that communicates with the time-division communication main device,
A transmission path unit installed between the main device and the terminal device to amplify a signal transmitted from the main device and to supply the signal to the terminal device;
A reception path unit installed between the terminal device and the main device to supply a signal transmitted from the terminal device to the main device;
A first switch unit disposed between the main unit, the transmission path unit, and the reception path unit to connect the assertion value to one of the transmission path unit and the reception path unit; And
A second switch unit disposed between the transmission path unit, the reception path unit, and the terminal device to connect the terminal device to one of the transmission path unit and the reception path unit,
The first switch unit and the second switch unit are changed in contact with the synchronization signal supplied from the terminal device to connect the main device and the terminal device through the transmission path unit, or the terminal device and the assertion value to the reception path. A relay unit for time division communication, characterized in that connected through the unit. The method according to claim 1,
The transmission path section
A band filter for filtering a frequency band of a signal transmitted from the main device to the terminal device; And
And a first amplifier for amplifying the filtered signal. The method according to claim 1,
The receiving path unit
And a second amplifier for amplifying a signal transmitted from the terminal device to the main device. The method according to claim 1,
And the main device, the time-division communication relay amplifier and the terminal device are connected by one coaxial cable. The method according to claim 1,
The time division communication relay amplifier device, characterized in that the power supply from the terminal device, time division communication relay amplifier. The method according to claim 1,
The claim number is plural,
And the time-division communication relay amplifier is provided at a front end of a plurality of terminal devices for time-division communication with the plurality of main devices.

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