JP4495877B2 - Transmission line switching device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a transmission line switching apparatus for exchanging and connecting a communication device that handles video signals and a computer.
[0002]
[Prior art]
In recent years, with the advancement of digital technology, not only standard current television signals but also high-definition television signals have been digitized. In addition, video compression techniques such as MPEG2 (Moving Picture Experts Group 2) have been actively developed by digitizing such video signals. For this reason, for example, in broadcasting stations, video signals with various transmission rates have been handled in the stations.
[0003]
Therefore, a serial transmission path switching device is used in which a plurality of serial transmission paths in which a plurality of transmission rates are mixed are concentrated in one place and selectively exchanged. FIG. 3 is a block diagram showing such a serial transmission path switching device.
[0004]
In FIG. 3, reference numeral 10 in the drawing is a switching device, and includes a matrix switch unit 11, an input unit 12, and an output unit 13. The matrix switch unit 11 performs switching (signal switching) of n (n is a natural number) line input and m (m is a natural number) line output. The input unit 12 and the output unit 13 each have an interface function corresponding to various transmission rates.
[0005]
That is, the switching device 10 demodulates the waveform deterioration of the input signal at the input unit 12 and performs switching at the matrix switch unit 11. The signal selected by the matrix switch unit 11 is demodulated by the output unit for waveform deterioration and output to the corresponding output transmission path.
[0006]
By the way, in recent broadcasting stations, there are some which can process video material signals handled by computers along with the increase in the speed of computer-based serial interfaces. For example, the IEEE 1394 interface can handle transmission speeds up to 1.6 Gbps, and enables real-time video transmission by isochronous transmission. For this reason, the use of a computer system interface capable of processing the above-mentioned video material signal will be strongly demanded in the broadcasting station.
[0007]
However, in the serial transmission path switching device as described above, since signals that can be handled by the input unit and the output unit are determined in advance, a separate switching device is required for video material signals that can be processed by a computer system. . For this reason, the configuration of the system becomes large, and the investment burden on the facility increases. In order to solve this, it is necessary to change the design of the interface configuration of the input unit and the output unit, and in this case as well, the cost is greatly increased.
[0008]
[Problems to be solved by the invention]
As described above, the conventional serial transmission path switching device has a problem that it cannot handle the video data of a newly appearing computer because the video signal that can be handled is determined in advance.
[0009]
Therefore, the purpose of the present invention is to provide a transmission line switching device that can cope with a video material signal of a computer and a known video material signal without preparing a switching device dedicated to the computer, thereby realizing a simple configuration. There is to do.
[0010]
[Means for Solving the Problems]
A transmission line switching device according to the present invention is connected to a matrix switch that switches transmission lines of a plurality of input / output systems, and to at least a part of input terminals of the matrix switch, and is connected to a terminal of a transmission path of a corresponding input system. A matrix interface switch for converting a video material signal from a computer into a signal that can be switched by a matrix switch, converting a signal output from the matrix switch into a video material signal of the computer, and outputting it to a corresponding transmission line; And an interface signal processing unit that processes a signal converted by the computer interface unit among signals output from the matrix switch and sends the signal to a corresponding output terminal of the matrix switch. It is what I did.
[0011]
That is, in the present invention, a computer interface part for computer connection is provided at some input terminals of the matrix switch, and the computer interface part converts the video material signal from the computer into a signal that can be switched by the matrix switch, Only the function of converting the output signal from the matrix switch into the video material signal of the computer is provided, and the signal converted by the computer interface unit is processed at some output terminals of the matrix switch to correspond to the matrix switch. An interface signal processing unit for sending to the output terminal is provided, and the existing input unit and output unit provided in the conventional switching device are respectively provided in the empty lines of the matrix switch, so that the matrix switch is connected to a known video signal and a computer. Picture element It is obtained as shared by the signal.
[0012]
Therefore, according to the present invention, it is not necessary to prepare a switching device for switching the video material signal of the computer separately from the conventional switching device, and the matrix switch of the present invention has a computer connected to a part of its input terminals. Since the interface unit is provided and the interface signal processing unit is provided at some of the output terminals, it is shared by the known video signal and the computer video material signal, thus providing an inexpensive device with a simple configuration. it can.
[0013]
Further, at least a part of the computer interface unit is an optical signal interface unit having a function of converting an optical signal into an electrical signal and converting the electrical signal into an optical signal, and an optical cable is connected to a transmission path connected to the optical signal interface unit. It is characterized by using.
[0014]
According to this configuration, the computer video material signal can be switched at a low cost regardless of the distance by connecting the computer installed at a distant place and the computer interface unit with the optical cable. .
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0016]
FIG. 1 shows a configuration of a transmission line switching apparatus according to an embodiment of the present invention, and reference numeral 21 denotes a matrix switch. Here, in order to simplify the description, the number of input channels (systems) of the matrix switch 21 is three and the number of output channels is two.
[0017]
In this embodiment, the computer interface unit 22 is connected to the first input channel of the matrix switch 21, the computer interface unit 23 is connected to the second input channel, and the input unit 24 is connected to the third input channel. The computer interface signal processing unit 25 is connected to the first output channel of the matrix switch 21, and the output unit 26 is connected to the second output channel.
[0018]
An optical transmission line 31 as an optical cable is connected to each of the computer interface units 22 and 23 and the input unit 24. An optical transmission path 32 is also connected to the output unit 26. Furthermore, a personal computer (not shown) is connected to the terminal of the optical transmission line 31 connected to the computer interface units 22 and 23.
[0019]
The computer interface units 22 and 23 are provided with transsaver 221 and 231 having an optical / electrical conversion function. The matrix switch 21 converts the optical signal from the optical transmission line 31 into an electrical signal by the transsaver 221 and 231. The electrical signal output from the matrix switch 21 is converted into an optical signal and output to the corresponding optical transmission line 31.
[0020]
The computer interface signal processing unit 25 includes coding 251 and P1394. A B function 252 is provided, and signals processed by the computer interface units 22 and 23 among signals output from the matrix switch 21 are processed and sent to the corresponding output channel of the matrix switch 21.
[0021]
The input unit 24 corresponds to the transmission rate of the studio equipment connected to the terminal of the optical transmission path 31, converts the optical signal from the optical transmission path 31 into an electrical signal, and equalizes (demodulates) the waveform to the matrix switch 21. Output.
[0022]
The output unit 26 equalizes the waveform so that the output signal of the matrix switch 21 matches the transmission rate of the studio equipment provided in the terminal of the optical transmission line 32, converts it into an optical signal, and outputs it to the optical transmission line 32.
[0023]
By the way, as shown in FIG. 2, the commercially available IEEE 1394 interface includes transsaver 221, 231, coding 251, P1394. B function 252. P1394. The B function 252 executes a long distance transmission process on the signal. Coding 251 performs coding / decoding of the sign of the IEEE 1394 signal into a binary signal. The transsaver 221 and 231 transmit a binarized signal.
[0024]
In this embodiment, therefore, the computer interface units 22 and 23 are provided with transsaver 221 and 231, the computer interface signal processing unit 25 is coded 251, P1394. The B function 252 is provided so that an IEEE 1394 video material signal can be switched by the matrix switch 21 that has been used conventionally.
[0025]
The operation of the above configuration will be described below by taking as an example a case where it is applied to an in-station transmission system in a broadcasting station.
[0026]
First, the matrix switch 21 is disposed, for example, in a standard definition TV (SDTV) studio, and an SDTV camera is attached to a terminal of the optical transmission path 31 connected to the input unit 24. The input unit 24 performs waveform equalization according to the camera output signal rate and sends it to the matrix switch 21. In the matrix switch 21, switching is performed so that the output of the SDTV camera is sent to the terminal device of the optical transmission line 32 connected to the output unit 26.
[0027]
In the above environment, when the video material signal processed by the personal computer is handled, it has been conventionally necessary to modify the switching device itself. In this embodiment, however, the empty input channel of the matrix switch 21 is used. It is only necessary to connect the computer interface units 22 and 23 to the empty output channel and connect the computer interface signal processing unit 25 to the empty output channel.
[0028]
In addition, since the input / output channels of the matrix switch 21 all exist in parallel under the same conditions, and the input / output signals all have the same transmission rate, the number of connected personal computers increases as long as there are empty channels. Can be easily accommodated. Furthermore, even if a computer that requires a new transmission rate appears in the future, it is only necessary to manufacture and replace the corresponding computer interface unit and computer interface signal processing unit.
[0029]
As described above, in this embodiment, computer interfaces 22 and 23 for computer connection are provided in some input channels of the matrix switch 21, and optical signals from a personal computer are provided in the computer interfaces 22 and 23. Is converted into an electrical signal, the waveform is equalized to a signal that can be switched by the matrix switch 21, and only the function of converting the output signal from the matrix switch 21 into a video material signal of a personal computer and converting it into an optical signal is provided. I am doing so. In addition, an interface signal processing unit 25 that processes the signals converted by the computer interface units 22 and 23 and sends them to the corresponding output channel of the matrix switch 21 is provided in a part of the output channels of the matrix switch 21. The existing input unit 24 and output unit 26 provided in the apparatus are provided in the other input / output channels of the matrix switch 21, respectively. That is, the matrix switch 21 can be shared by known video signals and computer video material signals.
[0030]
Therefore, it is not necessary to prepare a switching device for switching the video material signal of the computer separately from the conventional switching device, and the matrix switch 21 is provided with computer interface units 22 and 23 in some of its input channels. In addition, since the computer interface signal processing unit 25 is provided in a part of the output channels, it is shared by the known video signal and the computer video material signal. It can be configured easily and inexpensively.
[0031]
In the above embodiment, the optical cable is used for all the transmission lines. However, when the distance is short, a broadband cable may be used.
[0032]
In addition, the configuration of the switching device including the matrix switch, the function of the computer interface unit, the function of the computer interface signal processing unit, the format of the video material signal of the computer, etc. are variously modified and implemented without departing from the gist of the present invention. it can.
[0033]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to cope with a video material signal of a computer and a known video material signal without preparing a switching device dedicated to the computer, and thereby a transmission path that can be realized with a simple configuration. A switching device can be provided.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a transmission line switching device according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of an IEEE 1394 interface.
FIG. 3 is a block diagram showing a configuration of a conventional transmission path switching device.
[Explanation of symbols]
10 ... switching device,
11, 21 ... Matrix switch part,
12, 24 ... input section,
13, 26 ... output section,
22, 23 ... Computer interface part,
25. Computer interface signal processing unit,
31, 32 ... optical transmission line,
221, 231 ... Transceiver,
251 ... Coding,
252 ... P1394. B function.

Claims (2)

A matrix switch for switching transmission paths of a plurality of input / output systems;
A video material signal from a computer connected to at least a part of input terminals of the matrix switch and connected to a terminal of a transmission path of a corresponding input system is converted into a signal that can be switched by the matrix switch, and the matrix switch A plurality of computer interface units for converting the output signal into a video material signal of the computer and outputting it to the corresponding transmission line;
An interface signal that is connected to at least a part of output terminals of the matrix switch, processes a signal converted by the computer interface unit among signals output from the matrix switch, and sends the processed signal to a corresponding output terminal of the matrix switch A processing unit;
An input unit that is provided at an input terminal not connected to the computer interface unit of the matrix switch and that equalizes the waveform of a video signal of a transmission rate of a communication device connected to a terminal of a transmission path of a corresponding input system and sends the waveform signal to the matrix switch When,
Waveform or the like of a video signal of a transmission rate of a communication device provided at an output terminal not connected to the computer interface signal processing unit of the matrix switch, and a signal from the matrix switch connected to a terminal of a transmission path of a corresponding output system And an output unit for outputting
A video material signal from a computer connected to a first computer interface unit among the plurality of computer interface units is converted into a signal that can be switched by a matrix switch in the first computer interface unit, and is converted via the matrix switch. Output to the interface signal processing unit for processing, and output the processed signal to a second computer interface unit different from the first computer interface unit via the matrix switch. Converting the video material signal of the computer in the unit and sending it to a computer connected to the second computer interface unit,
A video signal from a communication device connected to the input unit is waveform-equalized at the input unit and output to the matrix switch, and a signal equalized by the matrix switch is connected to the output unit A transmission path switching device characterized by switching to send to   At least a part of the computer interface unit is an optical signal interface unit having a function of converting an optical signal into an electrical signal and an electrical signal into an optical signal, and an optical cable is connected to a transmission path connected to the optical signal interface unit. The transmission path switching apparatus according to claim 1, wherein the transmission path switching apparatus is used.

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