JP2881816B2 - Wireless communication device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[Industrial applications]

The present invention relates to a wireless communication apparatus, and more particularly to a wireless communication apparatus in which a wireless system including a transmission system and a reception system is configured with two paths, a working path and a protection path, so that a line can be switched when data of a specific pattern is transmitted. .

[Prior art]

Conventionally, this type of wireless communication apparatus processes a data signal in a wireless transmission section with an NRZ waveform, so that all input data signals are “1” (hereinafter, “1111”) or all “0”. In the case of (hereinafter referred to as "0000"), a pulse break alarm occurs and the input data signal is replaced with the AIS signal, so that signal transmission becomes impossible. FIG. 5 is a block diagram showing a wireless communication apparatus capable of transmitting a signal even when a pulse break alarm occurs. Radio communication apparatus shown in Fig. 5, a working radio system 1A, a spare radio system 1B, a branching unit 2 for splitting the input signal Si, a switching control unit 3, a switching unit 4 that outputs an output signal S ₀ It is composed of The working wireless system 1A includes a transmission system 10 and a reception system 11.
Further, the standby radio system 1B has the same configuration as the working radio system 1A. The wireless system is the working wireless system 1A and the standby wireless system
1B, and the signals branched by the branching unit 2 are supplied to the working wireless system 1A and the standby wireless system 1B, respectively. The switching unit 4 is configured to select and output the output of the working wireless system 1A or the output of the standby wireless system 1B.
The switching control unit 3 takes in the alarm ALM from the receiving system 11 of the working wireless system 1A and the standby wireless system 1B, and
The switching of the switching unit 4 can be controlled on the basis of. The transmitting system 10 includes a receiving system when transmitting data of a specific pattern.
A specific pattern detection unit 20 for suppressing unnecessary alarms generated in 11 is provided, and when a specific pattern is input, the information is transmitted from the transmission system 10 to the reception system 11 to suppress generation of an alarm. The transmission system 10 includes a transmission interface 12 and a transmission DPU unit 1.
3, a modulation unit 14, a transmission radio unit 15, and a specific pattern detection unit 20. The transmission interface 12 includes a bipolar / unipolar conversion section 121 and a decoder 122, as shown in FIG. In addition, the specific pattern detection unit 20
As shown in the figure, an input disconnection detection unit 201 that captures an output signal of the bipolar / unipolar conversion unit 121 and a “1111” and “0000” detection unit 20 that captures an output signal from the decoder 122
2, and an OR circuit 203 which takes in signals from the input disconnection detecting section 201 and the detecting section 202 and forms an alarm control signal. On the other hand, the reception system 11 includes a reception radio unit 16, a demodulation unit 17, a reception DPU unit 18, a reception interface unit 19, and an alarm control unit 21. According to such a wireless communication device, the specific pattern detection unit 20 is provided at the input unit of the transmission system 10 to prevent signal transmission from being disabled. That is, "1111", "0000"
In the case of the input signal, the information of the specific pattern input detected by the specific pattern detection unit 20 is input to the transmission DPU unit 13 and transmitted to the reception system 11 using an additional bit for radio section control,
The occurrence of the pulse break alarm ALM in the receiving system 11 is suppressed.

【Problems to be solved】

The above-described conventional wireless communication apparatus uses “1111” and “0000” as specific patterns and pseudo “00”
In each case of “00”, a specific pattern detection unit 20 is provided to prevent the alarm ALM from occurring in the reception system 11. As shown in FIG. 2, the specific pattern detection unit 20 receives the input disconnection information detected by the input disconnection detection unit 201 at the output of the bipolar / unipolar conversion unit 121 and “111”.
The OR circuit 203 combines the specific pattern detection information detected by the 1 "," 0000 "detection unit 202 and outputs it as an alarm control signal. The same alarm control signal is output with the pseudo “0000” generated due to the failure of the unipolar conversion unit 121,
The signal is sent to the receiving system and is used to suppress a pulse break alarm generated in the receiving system. This means that even if the bipolar / unipolar converter 121 of the working wireless system 1A fails, the detection of the alarm ALM is suppressed in the receiving system 11 and the switching operation from the working wireless system 1A to the standby wireless system 1B is not performed. means. Therefore,
The wireless communication device has a problem that a line disconnection occurs. The present invention has been made in view of the above problems,
It is an object of the present invention to provide a wireless communication apparatus capable of performing line switching by detecting information of signal input interruption in a transmission system by a reception system.

[Means for solving the problem]

In order to achieve the above object, a wireless communication apparatus of the present invention is configured such that a wireless system including a transmission system and a reception system is configured with two paths of a working and a protection, and selects a working output or a protection output. It has a switching unit that outputs, and has a switching control unit that takes in an alarm from the receiving system and switches the switching unit based on the alarm, and suppresses unnecessary alarms that occur in the receiving system when data of a specific pattern is transmitted. In a wireless communication device that provides a specific pattern detection unit in the transmission system for transmitting the information from the transmission system to the reception system when a specific pattern is input, and suppresses the occurrence of an alarm, the main signal is replaced with the specific pattern and the reception system is switched to the reception system. The transmission system detects a signal input disconnection information in a receiving system, and inputs the information to the switching control unit to perform circuit switching control.

【Example】

Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a wireless communication apparatus of the present invention, FIG. 2 is a block diagram showing a transmission interface and a specific pattern detection unit, and FIG. 3 is a block diagram showing a reception DPU unit and an alarm control unit. FIG. 4 is an explanatory diagram showing the state of various control signals for various input signals. Radio communication apparatus shown in FIG. 1 includes a working radio system 1A, a spare radio system 1B, a branching unit 2 for splitting the input signal Si, a switching control unit 3, a switching unit 4 that outputs an output signal S ₀ It is composed of The working wireless system 1A includes a transmission system 10 and a reception system 11.
Further, the standby radio system 1B has the same configuration as the working radio system 1A. The wireless system is the working wireless system 1A and the standby wireless system
1B, and the signals branched by the branching unit 2 are supplied to the working wireless system 1A and the standby wireless system 1B, respectively. The switching unit 4 is configured to select and output the output of the working wireless system 1A or the output of the standby wireless system 1B.
The switching control unit 3 takes in the alarm ALM from the receiving system 11 of the working wireless system 1A and the standby wireless system 1B, and
The switching of the switching unit 4 can be controlled on the basis of. The transmitting system 10 includes a receiving system when transmitting data of a specific pattern.
A specific pattern detection unit 20 for suppressing unnecessary alarms generated in 11 is provided in the transmission system 10, and when a specific pattern is input, the information is transmitted from the transmission system 10 to the reception system 11 so as to suppress the occurrence of the alarm. Has become. The transmission system 10 includes a transmission interface 12 and a transmission DPU unit 1.
3, modulation section 14, transmission radio section 15, specific pattern detection 2
0. The receiving system 11 includes a receiving radio unit 16
, A demodulation unit 17, a reception DPU unit 18, a reception interface unit 19, and an alarm control unit 21. In the receiving system 11, the alarm control unit 21 detects information of signal interruption and inputs the information to the switching control unit 3 so that line switching control can be performed. The transmission interface 12 includes a bipolar / unipolar converter 121 and a decoder 122. The specific pattern detection unit 20 includes a bipolar / unipolar conversion unit 121
Input disconnection detection unit 201 that captures the output signal of
"1111" and "0000" detectors that take in output signals from
The circuit comprises an input disconnection detection unit 201 and an OR circuit 203 which takes in signals from the input disconnection detection unit 201 and forms an alarm control signal. In addition, as shown in FIG. 3, the reception DPU unit 18
1, a pulse break detection unit 182, and a “1010” detection unit 183. The alarm control unit 21 includes a gate 211 that forms a pulse break alarm signal from the signal from the DPU unit 181 and the signal from the pulse break detection unit 182, a signal from the DPU unit 181 and a signal from the “1010” detection unit 183. By "1111"
The control unit 212 includes an “1111” control unit 212 that forms a control signal (AIS control). The operation of the embodiment configured as described above will be described below. In FIG. 4, α indicates a signal of the transmission system 10, β indicates an output signal of the reception DPU unit 18, and γ indicates an output signal from the alarm control unit 21, respectively. FIG. 4 shows the signals of the respective parts with respect to the pattern of the transmission system input signal. The input signal Si is transmitted to the working radio system 1A at the branch unit 2.
Then, the signal is distributed to the standby radio system 1B, subjected to bipolar / unipolar conversion by the bipolar / unipolar converter 121 at the transmission interface 12, converted to HDB3 by the decoder 122, and sent to the transmission DPU 13 as an NRZ signal. At this time, as shown in FIG. 2, the signal is branched in the middle of each processing and input to the specific pattern detection unit 20. Here, the control signal output corresponding to the input signal is as shown in FIG. Among these control signals, the alarm control signal is transmitted to the receiving system 11 using an additional bit for radio section control, and the input disconnection signal is transmitted to the transmission DP.
The U unit 13 is used to perform reinforcement transmission of the “1010” pattern signal. Conventionally, this is used to perform forced transmission to the “1111” pattern signal for AIS signal insertion, but “10
This is for transmitting information on the disconnection of the input signal of the transmission system 10 or the failure of the bipolar / unipolar conversion unit 121 to the reception system 11 by forcibly transmitting the "10" pattern signal. The output of the transmission DPU unit 13 is modulated by the modulation unit 14, frequency-converted by the transmission radio unit 15, and then output to the reception system 11. In the receiving system 11, after the frequency is converted by the receiving radio unit 16 and demodulated by the demodulating unit 17, the additional bits are removed by the receiving DPU unit 18 to make the original data sequence and the receiving interface unit 19
Given to. In the receiving interface unit 19, after performing unipolar / bipolar conversion, it is output as an output signal S ₀ through the switching unit 4. As shown in FIG. 3, the reception DPU unit 18 has a built-in pulse break detection unit 182 and a “1010” detection unit 183, and uses the output signal of each detection unit and the additional bit to transmit data. The alarm control signal transmitted from 10 is supplied to the alarm control unit 21. The output signal of the reception DPU unit 18 and the operation of the alarm control unit 21 are as shown in FIG. That is, the alarm control signal output is “1” and “101”
It can be seen that when the output of the "0" detection unit is "1", it is an input signal disconnection in the transmission system or a failure of the bipolar / unipolar conversion unit 121. Therefore, the logical product of these two outputs is "1111".
By using the control signal, the failure of the bipolar / unipolar conversion unit 121 of the transmission system 10 can be detected by the reception system 11 and the line can be switched. At the same time,
1 "control signal output is the main signal replaced with" 1010 "
It is also used for signals that replace the 11 "AIS signal.

【The invention's effect】

As described above, the present invention has an effect of enabling line switching when a failure occurs in the bipolar / unipolar conversion unit or an input disconnection to the transmission interface, thereby preventing line disconnection.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a wireless communication apparatus of the present invention, FIG. 2 is a block diagram showing a transmission interface and a specific pattern detection unit, and FIG. 3 is a block diagram showing a reception DPU unit and an alarm control unit. FIG. 4 is an explanatory diagram showing states of various control signals with respect to various input signals, and FIG. 5 is a block diagram showing a conventional device. 1A: working wireless system, 1B: standby wireless system 2: branching unit 3: switching control unit 4: switching unit 10: transmission system 11: reception system 12: transmission interface 20: specific pattern detection Unit 21 Alarm control unit

Claims (1)

(57) [Claims] A wireless system comprising a transmitting system and a receiving system is composed of two paths, a working and a protection, and has a switching unit for selecting and outputting a working output or a protection output. A switching control unit that fetches an alarm from the system and controls the switching unit based on the alarm, and transmits a specific pattern detection unit for suppressing unnecessary alarms that occur in the reception system when data of a specific pattern is transmitted In a wireless communication device that is provided in the system and suppresses the occurrence of alarms by transmitting the information from the transmitting system to the receiving system when a specific pattern is input, the main system replaces the main signal with a specific pattern and transmits it to the receiving system. A wireless communication device having a circuit configuration capable of detecting input disconnection information and inputting the information to the switching control unit to perform line switching control.