JPH06244934A - Protection circuit for error of signaling signal - Google Patents

Abstract

PURPOSE:To prevent an erroneous signaling (SIG) signal from being sent to an external device by sending a transmission SIG signal in response to a change only when 1st and 2nd SIG protection circuits detect the change in the SIG signal and its inverting change and both the circuits discriminate the normality of the signal. CONSTITUTION:A received SIG (RSIG) signal, an alarm signal and a clock signal are inputted to a forward protection circuit 30 and a backward protection circuit. The circuit 30 discriminates an SIG signal in an idle state (S=1) received when the SIG signal is in use (S=0) is a normal signal or an erroneous signal in the inside of an equipment or the like. Furthermore, the circuit 32 discriminates an SIG signal in an idle state (S=0) received when the SIG signal is in use (S=1) is a normal signal or an erroneous signal. The SIG signal based on the result of discrimination is sent to a transmission circuit 34. When it is discriminated that the circuit 34 receives the erroneous signal, the transmission SIG (SSIG) signal outputted from the protection circuit and keeping the preceding state is sent and when it is discriminated that the normal signal is received, the SSIG signal resulting from modifying the SIG signal is sent.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a signaling signal error protection circuit, and more particularly to a signaling signal error protection circuit that protects a signaling signal in an analog interface section of a transmission device.

[0002]

2. Description of the Related Art One of signals transmitted and processed by a transmission device.
One is the signaling signal (S). This signal is, for example, a signal used in an exchange or the like, and notifies the opposite device that each channel is in use (S = 0), free (S = 1), or closed (S = 0). It is a signal to do.

Conventionally, in such a transmission device,
The signaling signal is transmitted together with the main signal, the alarm signal, and the parity signal. That is, regarding these signals transmitted by the data bus (main signal, signaling signal, alarm signal), the normality of the transmission data has been confirmed by monitoring the parity signal added to the signals.
In addition, the transmission device and data are alarm signals (normal:
Normality was confirmed in ALM = 0, abnormality: ALM = 1).

For example, when the alarm signal indicates ALM = 1, which indicates an abnormality inside the transmission device, it is considered that the transmission device has a device failure (including a transmission line failure such as between TDM and TDM) and is connected to the transmission device. It is to notify the external device such as the exchange that is closed (S = 0) by a signaling signal.

[0005]

However, in such a conventional technique, even if an error of several bits occurs in the signaling signal inside the transmission device, if the parity error cannot be detected, the alarm signal is in the alarm state ( ALM
= 1) is not indicated, there is a problem that an erroneous signaling signal is sent to an external device such as an exchange.

The present invention eliminates the problem of sending such an erroneous signaling signal to an external device such as a switchboard, and provides a signaling signal error protection circuit capable of transmitting a stable signaling signal. To aim.

[0007]

According to the present invention, in order to solve the above-mentioned problems, a signaling signal error protection circuit of an interface section in a transmission device for transmitting a signaling signal receives a received signaling signal and a reference clock,
A first protection circuit that determines the normality of the received signaling signal when the received signaling signal makes a first change, and a received signaling signal and a reference clock are received, and the received signaling signal is opposite to the first change. A second protection circuit that determines the normality of the received signaling signal when the second change is made, and the received signaling signal is the first protection circuit.
When it is judged to be normal by the protection circuit and the second protection circuit, the transmission signaling signal according to the change of the reception signaling signal received by these protection circuits is transmitted, and when it is judged to be abnormal, the reception signaling signal is transmitted. And a signaling signal sending circuit for sending a transmission signaling signal which maintains the previous state without changing.

[0008]

According to the present invention, the received signaling signal is the first
The normality of the received signaling signal is judged by the first protection circuit when the change occurs, and if normal, this change of the received signaling signal is output from the signaling sending circuit as the transmission signaling signal. In addition, when the received signaling signal makes a second change, the normality of this received signaling signal is judged by the second protection circuit, and if it is normal, this change of the received signaling signal is transmitted from the signaling sending circuit as a transmission signaling signal. Is output. If the received signaling signal is judged not to be normal by the first protection circuit or the second protection circuit, the signaling sending circuit does not change the sending signaling signal and sends the sending signaling signal maintaining the previous state. To do.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of a signaling signal error protection circuit according to the present invention will now be described in detail with reference to the accompanying drawings.

FIG. 3 shows an example of a relay system diagram of a communication system including a transmission device to which the signaling signal transmitting circuit according to the present invention is applied. As shown in the figure, this embodiment is, for example, a plurality of extension telephones 12A-1 to 12A
A private branch exchange 10A accommodating -n and a private branch exchange 10B accommodating a plurality of extension telephones 12B-1 to 12B-n are connected to each other through transmission lines 14A, 1
It is applied to the 4B analog interface section.

FIG. 4 is a block diagram showing a connection example of the analog interface section 16 between the exchange 10 and the transmission device 14 applied to the communication system of FIG. The analog interface unit 16 is a VF DATA processing unit 18 that processes a voice band signal transmitted and received by two lines or four lines.
And an SS / SR processing unit 20 connected to a signaling signal line (SR, SS) that processes a signaling signal. The SS / SR processing unit 20 is a signaling processing unit including the signaling signal error protection circuit according to the present embodiment, and outputs a predetermined control signal to the VF DATA processing unit 18. The processing units 18 and 20 are connected to the multiplexing unit 22 in the transmission device.

FIG. 1 is a block diagram showing an embodiment of a signaling signal error protection circuit according to the present invention provided in the signaling processing section 20 of FIG. As shown in the figure, in this embodiment, there are three input signals and one output signal.
The received signaling signal (hereinafter referred to as RSIG signal) indicates a signaling signal received from the opposite device, and the clock indicates a reference clock used for sampling the RSIG signal.

Further, a transmission signaling signal (hereinafter referred to as SSI
G signal) is the output signal of the RSIG signal that has passed through the protection circuit. Further, the alarm signal is a signal indicating that the transmission device or the like has a failure. These three input signals are applied to the front protection circuit 30 and the rear protection circuit 32, respectively.
Entered in.

The forward protection circuit 30 determines whether the idle (S = 1) signaling signal received when the signaling signal is being used (S = 0) is a normal signal or an erroneous signal inside the device. To do. Further, the rear protection circuit 32 is
Whether the in-use (S = 0) signaling signal received when the signaling signal is idle (S = 1) is a normal signal,
Determine if the signal is incorrect inside the equipment. And
A signaling signal based on the determination result is sent from the front protection circuit 30 and the rear protection circuit 32 to the signaling signal sending circuit 34.

When the signaling signal sending circuit 34 judges that these protection circuits have received an erroneous signal, the signaling signal sending circuit 34 sends the SSIG signal output from the protection circuit, which is maintained in the previous state, and receives the normal signal. When it is determined, the SSIG signal in which the signaling signal is changed is transmitted. In this way, it is possible to prevent an erroneous signaling signal from being sent inside the transmission device or on the transmission path to an external device such as an exchange. Note that the circuit shown in FIG. 1 performs protection including conditions such as sampling of the RSIG signal and fault information indicated by the alarm signal.

FIG. 2 is a time chart showing an example of operation waveforms of the signaling data error protection circuit shown in FIG.
In FIG. 2, the operation is roughly divided into four sections T _{1 to} T ₄ . That is, when the RSIG signal is stably received in the T ₁ section, when the RSIG signal has an error in the T ₂ section, and when the RSIG signal and the alarm signal have an error in the T ₃ section, The section T ₄ shows the case where the alarm signal (ALM = 1) is being stably received.

In this embodiment, as shown in FIG.
The SSIG signal is fixed when the SIG signal is stably sampled for two clocks.

The RSIG signal is stably received in the T ₁ section. Therefore, the fall of RSIG (“H” →
The rear protection circuit 32 is used in "L"), and the SSIG signal that has undergone this change is output from the signaling signal transmission circuit 34 with a delay of T _D1 . Further, the front protection circuit 30 is used at the rise of RSIG (“L” → “H”), and
_The signaling signal transmission circuit 34 outputs the SSIG signal which has undergone this change with a delay of _D2 .

As described above, the SSI is applied to the RSIG signal.
The G signal is output with a delay of T _D1 or T _D2 . These delays T _D1 and T _D2 are delays that occur when sampling the RSIG signal, and the time is T _D1 = T _C + T _G1, T
It is represented by _D2 = T _C + T _G2 . Where T _{G1 and} T _G2 are R
It is the time from the change of the SIG signal to the first sampling by the clock, and T _C is the width of the clock used for sampling.

Further, the width (T _C ) of the clock used for sampling is T with _{respect to} the width (T _W1,2 ) of the RSIG signal.
_{By setting W1,2} = AXT (A: natural number), T _D1 =
T _D2 (T _G1 = T _G2 ) and T _W1 = T _P1 and T _W2 = T _P2 . By doing so, it is possible to reproduce a normal waveform, although there is a delay in T _D1,2 .

In the T ₂ section, there is an error in the RSIG signal. However, the SSIG signal holds the previous state because sampling by the clock is not performed twice stably.

In the T ₃ section, an error occurs in the RSIG signal and the alarm signal. However, in this embodiment, RS
Since the alarm signal is protected in the same manner as the IG signal, the SSIG signal holds the previous state.

In the T ₄ section, the alarm signal shows stable (ALM = 1). Alarm signal is also RSIG
Since the same protection as the signal is done, the SSIG signal is
After the protection time (T _D3 ), it is in the closed state (SSIG = 0).

In this embodiment, since the clock is used for the protection circuit, it is more stable than the case where a circuit including an error such as a resistance and a capacitor such as a mono-multi circuit is used.

[0025]

As described above, according to the signaling signal error protection circuit of the present invention, it is possible to correct errors inside the transmission device and on the transmission path, and reduce adverse effects on external devices such as exchanges.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of a signaling signal error protection circuit according to the present invention.

FIG. 2 is a time chart showing an operation example in the embodiment of FIG.

FIG. 3 is a relay system diagram of a communication system to which the present invention is applied.

FIG. 4 is a block diagram of an analog interface unit to which the present invention is applied.

[Explanation of symbols]

 20 signaling signal processing unit 30 front protection circuit 32 rear protection circuit 34 signaling signal transmission circuit

Claims (2)

[Claims] 1. A signaling signal error protection circuit in an interface section of a transmission device for transmitting a signaling signal, wherein the received signaling signal and a reference clock are received, and when the received signaling signal makes a first change, the received signaling signal. A first protection circuit for determining the normality of the received signaling, the received signaling signal and the reference clock are received, and when the received signaling signal makes a second change opposite to the first change, the received signaling A second protection circuit for judging the normality of the signal, and a reception signaling signal received by these protection circuits when the reception signaling signal is judged to be normal by the first protection circuit and the second protection circuit The transmission signaling signal is sent according to the change in the And a signaling signal sending circuit for sending a transmission signaling signal which maintains the previous state without changing the ring signal. 2. The signaling signal error protection circuit according to claim 1, wherein the first and second protection circuits input an alarm signal to judge the normality of the alarm signal, and the normalization is made by the signaling signal sending circuit. A signaling signal error protection circuit characterized in that an alarm signal is transmitted.