JPH07162475A - Communication device - Google Patents

Abstract

PURPOSE:To prevent detection from being disabled by receiving information on a parity error if a 1st, 2nd, or 3rd parity detection part detects the parity error, performing parity arithmetic again, and using the result as a parity bit. CONSTITUTION:If the 1st parity detection part 6 which detects a party error detects the parity error, information on the parity error is received by a 2nd parity addition part 7, parity arithmetic is performed again, and the result is added as a parity bit to a sent signal and sent out. Thus, only when the parity error is detected, the parity bit is newly added, so if the detection part 6 gets out of order and a parity error can not be detected although there is the parity error actually, the addition part 7 reappends no parity and the 2nd parity detection part 8 can detect the fault in the device. When the detection part 6 correctly detects the error, the addition part replaces the parity bit and neither of the detection part 8 and 11 generates fault information.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication device, and more particularly to a communication device that monitors a failure in the device by using a parity bit.

[0002]

2. Description of the Related Art There are two conventional methods for monitoring a device failure using a parity bit. The first method is to add a parity to a transmission signal coming from the outside of the communication device, detect the presence or absence of a device failure by a parity check after signal processing, and add a new parity bit immediately after the detection unit regardless of the presence or absence of the failure. It is a method of doing. The second method is a method of detecting the presence or absence of a fault in the device by a parity check after signal processing, but not adding a new parity bit.

[0003]

According to the first method of the apparatus fault monitoring method using the above-mentioned conventional parity bit,
If the parity detection unit deployed immediately after the fault location in the device fails, no parity error is detected, and a new parity bit is added in the parity addition unit, so the parity error disappears and a fault occurs in the device. However, there is a drawback that it becomes impossible to detect. Further, in the above-described second method, since a signal including a parity error is transmitted to the next stage and thereafter, a failure alarm is issued in a plurality of parity detection units, and it is possible to identify where the failure has occurred. There was a drawback that it could not be done.

An object of the present invention is to prevent undetectability of a parity error due to a failure of a part of the parity detection units, and
It is an object of the present invention to provide a communication device capable of identifying a location where a parity error occurs, that is, a location where an intra-device failure occurs when a parity error occurs.

[0005]

The communication device of the present invention includes an external transmission signal input section for receiving a transmission signal coming from the outside of the communication apparatus, and a parity bit added to the transmission signal received from the external transmission signal input section for transmission. A first transmission signal processing unit for receiving the transmission signal coming from the first parity addition unit, and a transmission signal coming from the first parity addition unit for processing the signal. A first transmission signal processing unit that processes the signal, a parity detection unit that performs a parity check of the transmission signal coming from the first transmission signal processing unit, and detects a parity error, and a first parity detection unit. If there is a parity error, the information of the parity error is received, the parity operation is performed again, and the result is added as a parity bit to the transmission signal and sent out.
Parity check of the transmission signal coming from the first module and the first module including the parity addition unit of
If there is a parity error in the second parity detection unit that detects the parity error and the second parity detection unit, the information of the parity error is received, the parity operation is performed again, and the result is used as the parity bit for the transmission signal. And a second transmission signal processing unit for receiving the transmission signal coming from the third parity addition unit and processing the signal. The parity check of the transmission signal coming from the third parity detector detects the parity error, and if there is a parity error in the third parity detector, the information of the parity error is received and the parity operation is performed again. And communicates the transmission signal received from the fourth parity addition unit, which adds the result as a parity bit to the transmission signal and sends it out. And a second module including an external transmission signal output section for transmitting to the 置外 unit.

[0006]

In the present invention, a new parity bit is added only when a parity error is detected.
In the situation where the parity detection unit of 1 fails and the parity error cannot be detected despite the fact that there is a parity error, the second parity addition unit does not change the parity and the second parity detection unit uses the device. Internal disorders can be detected. If the first parity detection unit correctly detects the parity error, the second parity addition unit replaces the parity bit, so that the second parity detection unit and the third parity detection unit perform the replacement. No fault alert is issued.

[0007] It should be noted that one or more modules excluding the external transmission signal output section from the second module may be connected in series between the first module and the second module.

[0008]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a block diagram of a communication device according to an embodiment of the present invention.

The communication device of this embodiment comprises a first module 1 and a second module 2. The first module 1 includes an external transmission signal input unit 3 for receiving a transmission signal coming from the outside of the communication device, and a first parity addition unit for adding a parity bit to the transmission signal received from the external transmission signal input unit 3 and transmitting the parity signal. 4 and the first transmission signal processing unit 5 which receives the transmission signal coming from the first parity addition unit 4 and processes the signal, and the parity check of the transmission signal coming from the first transmission signal processing unit 5. If there is a parity error in the first parity detection unit 6 that detects the parity error and the first parity detection unit 6, the information of the parity error is received, the parity operation is performed again, and the result is the parity. It includes a second parity adding unit 7 which adds the bit as a bit to the transmission signal and sends the bit. The second module 2 is the first
The parity check of the transmission signal coming from the module 1 of No. 2, the second parity detection unit 8 for detecting a parity error, and if there is a parity error in the second parity detection unit 8, the information of the parity error is received, The third parity addition unit 9 that performs the parity operation again and adds the result as a parity bit to the transmission signal and sends it, and the transmission signal that comes from the third parity addition unit 9 are received, and the processing of the signal is performed. In the second transmission signal processing unit 10 to perform, the parity check of the transmission signal coming from the second transmission signal processing unit 10 is performed, and the third parity detection unit 11 that detects a parity error, and the third parity detection unit 11 If there is a parity error, the information of the parity error is received, the parity operation is performed again, and the result is added as a parity bit to the transmission signal. Fourth parity addition unit 12 for sending
And an external transmission signal output unit 13 for transmitting the transmission signal received from the fourth parity adding unit 12 to the outside of the communication device.

In this embodiment, since a new parity bit is added only when a parity error is detected, for example, the first parity detection unit 6 fails, and a parity error occurs in spite of the actual parity error. In such a situation that the parity cannot be detected, the second parity addition unit 7 does not change the parity, and the second parity detection unit 8 can detect the in-device failure. When the first parity detection unit 6 correctly detects a parity error, the second parity addition unit 7 replaces the parity bit, so that the second parity detection unit 8 and the third parity detection unit No fault alarm is issued from the detection unit 11.

It should be noted that between the first module 1 and the second module 2, one or more modules excluding the external transmission signal output section 13 from the second module 2 may be connected in series.

[0013]

As described above, according to the present invention, if there is a parity error in each of the second and third parity detecting sections and the first, second and third parity detecting sections, information of the parity error is obtained. Is received, the parity operation is performed again,
By having the second, third, and fourth parity adding units that add the result to the transmission signal as parity bits,
There is an effect that it is possible to prevent the inability to detect parity due to the failure of some of the parity detection units and to identify the location of the failure in the device.

[Brief description of drawings]

FIG. 1 is a block diagram of a communication device according to an embodiment of the present invention.

[Explanation of symbols]

 1 1st module 2 2nd module 3 External transmission signal input part 4 1st parity addition part 5 1st transmission signal processing part 6 1st parity detection part 7 2nd parity addition part 8 2nd parity Detection unit 9 Third parity addition unit 10 Second transmission signal processing unit 11 Third parity detection unit 12 Fourth parity addition unit 13 External transmission signal output unit

Claims (2)

[Claims] 1. An external transmission signal input unit for receiving a transmission signal coming from the outside of a communication device, and a first transmission unit for adding a parity bit to the transmission signal received from the external transmission signal input unit.
And a first transmission signal processing unit for receiving a transmission signal coming from the first parity addition unit and processing the signal, and a parity of the transmission signal coming from the first transmission signal processing unit. If there is a parity error in the first parity detection unit that performs a check and detects a parity error and the first parity detection unit, the information of the parity error is received, the parity operation is performed again, and the result is obtained. Second addition to the transmission signal as a parity bit and transmission
First parity module including a parity addition unit, a second parity detection unit that performs a parity check of a transmission signal coming from the first module and detects a parity error, and a parity error in the second parity detection unit. If there is, the third parity addition unit that receives the information of the parity error, performs the parity calculation anew, adds the result as a parity bit to the transmission signal and sends the result, and the third parity addition unit. A second transmission signal processing unit that receives an incoming transmission signal and processes the signal, and a third parity detection that performs a parity check of the transmission signal coming from the second transmission signal processing unit and detects a parity error. Section and the third parity detection section, if there is a parity error, the information of the parity error is received, the parity operation is performed again, and the parity operation is performed. A second parity adding section for adding the result of (4) as a parity bit to the transmission signal and transmitting the same, and an external transmission signal output section for transmitting the transmission signal received from the fourth parity adding section to the outside of the communication device. A communication device having a module. 2. An external transmission signal input section for receiving a transmission signal coming from the outside of the communication device, and a first transmission section for adding a parity bit to the transmission signal received from the external transmission signal input section.
And a first transmission signal processing unit for receiving a transmission signal coming from the first parity addition unit and processing the signal, and a parity of the transmission signal coming from the first transmission signal processing unit. If there is a parity error in the first parity detection unit that performs a check and detects a parity error and the first parity detection unit, the information of the parity error is received, the parity operation is performed again, and the result is obtained. Second addition to the transmission signal as a parity bit and transmission
The first module including the parity addition unit of the above, and the second parity detection unit that performs parity check of the transmission signal coming from the preceding module and detects the parity error, and the second parity detection unit detects the parity error. For example, the third parity addition unit that receives the information of the parity error, performs the parity calculation anew, adds the result as a parity bit to the transmission signal and sends the result, and the transmission that comes from the third parity addition unit. A second transmission signal processing unit that receives a signal and processes the signal;
If a parity error is detected in the third parity detection unit that detects a parity error and a parity error is detected in the transmission signal that comes from the transmission signal processing unit, the information of the parity error is received. , A fourth parity adding unit for performing a parity operation again and adding the result as a parity bit to the transmission signal and transmitting the parity signal, which is connected in series to the output of the first module.
A fourth parity detection unit for performing parity check on a transmission signal coming from one or more second modules and a last module of the second module and detecting a parity error; and a parity in the fourth parity detection unit. If there is an error, the information of the parity error is received, the parity operation is performed again, and the result is added as a parity bit to the transmission signal and transmitted.
And a third transmission signal processing unit for receiving the transmission signal coming from the fifth parity addition unit and processing the signal, and a parity of the transmission signal coming from the third transmission signal processing unit. If there is a parity error in the fifth parity detection unit that performs a check and detects a parity error and the fifth parity detection unit, the information of the parity error is received, the parity operation is performed again, and the result is obtained. It has a third module including a sixth parity adding section for adding a parity signal to the transmission signal and transmitting the same, and an external transmission signal output section for transmitting the transmission signal received from the sixth parity adding section to the outside of the communication device. Communication device.