JPS5912655A - Data communication controller - Google Patents

Abstract

PURPOSE:To prevent the adverse effect to be produced at checking, by disconnecting all other data communication controllers from a bus by a diagnosis setting command, in a system connecting plural data communication controllers to buses. CONSTITUTION:A diagnosis set command line 106 and a diagnostic address line 107 are provided in addition to a normal communication bus 105. The diagnosis setting command line 106 is brought into a high level by a command 108 of the diagnostic command from a central processing unit 101 in executing the diagnosis and all other data communication controllers 102 are disconnected from the communication bus 105. Then, a command address pulse from a data communication controller 100 of the diagnosis side is transmitted to the diagnostic address line 107 and the controller to be commanded only is connected to the communication bus 105. Thus, the adverse effect on the communication bus is eliminated and the checking of a specific data communication controller is performed.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a data communication control device used in a multi-data communication system, and particularly to an improvement for facilitating checking of the normality of a dryno (and a receiver).

In a conventional multi-data communication system in which multiple data communication control devices of this kind are connected to a host system, in order to check the normality of the communication control device's cable dryer (and receiver), the data communication of the host The control device executes the diagnostic program and performs diagnosis by returning commands to each data communication control device.Therefore, due to a failure of a non-diagnostic data communication control device, harmful interference signals may be transmitted to the system bus. For example, when a high level signal continues to be output on the bus, there is a drawback that it is not possible to fully diagnose each communication control device.

An object of the present invention is to solve the above-mentioned conventional drawbacks and to make it possible to check the normality of the couple driver and receiver of each communication control device, regardless of the failure of other communication control devices. The control unit of the present invention is a data communication control device that has been provided with a communication cable driver and a communication cable receiver connected to a communication bus, and a control unit that receives commands from a central processing unit. In a data communication control device, the data communication control device is equipped with a communication control section that performs communication with other devices via the communication cable driver and receiver according to a command, A diagnostic setting command unit that issues a diagnostic setting command signal, an address pulse generating unit that generates a diagnostic address pulse, a test data generating unit, a diagnostic determining unit that determines whether the received data is correct, etc. When diagnosing the data communication control device, the diagnostic setting command section sends a diagnostic setting command to the diagnostic setting command line, and the diagnostic address pulse generating section generates an address pulse and sends it to the diagnostic address line. After stopping the power supply to the communication cable driver and the communication cable receiver of the data communication control device other than the addressed data communication control device to be diagnosed, The test data sent back from the data communication control device to be diagnosed is inputted to the diagnosis determination unit via the communication cable receiver, and the diagnosis determination unit determines the normality of the data communication control device to be diagnosed. It is characterized by checking.

Next, the present invention will be explained in detail with reference to the drawings.

FIG. 1 is a diagram showing an outline of a multi-data communication system in which all data communication control devices of the present invention are connected. That is,
When a Q communication request command 108 is issued from the central processing unit 101, the data communication control device 100 performs other communication via a normal communication bus 105 (including address lines, data lines, control lines, etc.). Data is exchanged with the control device 102 through normal operations. In addition to the normal communication bus 105, a diagnostic setting command line 106
and a diagnostic address line 107 to which other data communication control devices 102 are also connected. Other data communication control devices 102 include respective central processing units 1
01.

The present invention issues a diagnostic setting command by driving the diagnostic setting command line 106 from the data communication control device 1100 on the diagnostic side during periodic diagnosis, and sends a diagnostic address to the diagnostic address line 1'07. By sending out a pulse, only the data communication control device specified by the diagnostic address pulse puts the communication cable driver and receiver into the operating state, and other communication control devices become inactive, thereby reducing the communication bus power. It is configured so that it can be separated from the

By disconnecting from the communication bus 105, it is possible to check the normality of one communication control device by eliminating the adverse effects caused by a failure of the communication cable driver or the like.

After checking one communication control device, check the next address from the communication control device on the diagnostic side? By specifying this, the normality of the operation of the next communication control device is checked in the same way as above.

FIG. 2 is a block diagram showing one embodiment of the present invention.
A configuration example of a data communication control device 100 on the diagnosis side is shown. That is, a central processing unit interface unit 2-OU 1 that interfaces with the central processing unit 101;
A communication control unit 2-002 drives a communication cable driver 2-103″f and transmits data to the communication bus 105 according to commands supplied from the central processing unit via the interface unit 2-001′. etc. to perform normal communication.

When performing periodic diagnosis or when performing diagnosis when an abnormality is detected in normal communication operation, a diagnostic instruction command 108 is sent from the central processing unit 101 to the central processing unit interface unit 2-001. via the diagnostic setting command section 2-202 and the diagnostic address pulse generating section 2-2.
Given to 03. The diagnostic setting command section 2-202 drives the diagnostic setting command cable driver 2-301 to set the diagnostic setting command line 106t to a high level. All other data communication control devices 102 are configured substantially similarly to the communication control device 100 shown in FIG.
Cable receiver for high-level diagnostic setting command of diagnostic setting command line 106 - 2-303
'e to the diagnosis/diagnosis determination unit 2-204.

The diagnosis/diagnosis determination unit 2-204 thereby issues a power supply stop command, sends it to the power unit 2-105 that supplies power for operating the communication cable driver and receiver, and stops the power supply9. Therefore, the communication cable driver 2-103 and the same receiver 2-1
04 becomes inactive and is disconnected from the communication bus 105.

Next, in the diagnostic side data communication control device 100, the diagnostic address pulse generating section 2-203 drives the υ diagnostic address pulse cable driver 2-302, and a pulse is sent to the diagnostic address line 107. In all other communication control devices 102, the diagnostic address pulse cable receiver 2-303 receives the pulses, and the diagnostic address pulse counter 2-205 counts the number of received pulses. The count value is stored in the address section 2-207 which stores all the addresses specified for each data communication control device.
is compared with the output value of address match section 2-206. The data communication control device whose addresses match controls the diagnosis/diagnosis determining section 2-204 based on the output of the address matching section 2-206, and cancels the power supply stop command. Therefore, the data communication control device 1 on the diagnosis side
Data communication control device 102 addressed from 00
Only the communication cable driver 2-103 and the receiver 2-104 are connected to the communication path 105, and the others are disconnected.

In this state, both data communication systems on the diagnostic side are connected.

Now, the diagnostic pulse 1 generating section 2-201 and the diagnostic pulse 1
0 generation part 2-200 and Shioa circuit 2-101゜2-1o
Communication cable Drino (-2-103') via z'i
It generates a bus and sends it to the communication bus 105. In this embodiment, the diagnostic pulse 71 generation unit 152-201 and the diagnostic pulse 10 generation unit 2-
The data communication control device 102 to which the address was specified is for communication).
Cable receiver for all data communication on Kusu 105 -2-
104, and the received data is sent to the diagnostic determination unit 2-2.
Checked by 08. If the judgment result is good, it is reported to the central processing unit 101, and after a certain period of time according to a command from the central processing unit, it is returned to the diagnostic nox 1 generation g2-201 and the diagnostic nox 0 generation unit 2-200 +01
The O-line test bus that generates the test bus is a communication turn route.

The signal is sent to the communication node 105 via the driver 2-103'.

The data communication control device 100 on the diagnostic side receives the test pulse sent back through the communication bus 105 through the communication cable receiver 2-104, and receives the test pulse from the communication cable receiver 2-104.
Determine whether the power is normal or not.0 If it is normal, the diagnosis determination section z-
The diagnostic address pulse generator 2-2 uses the output of zos.
0371・One random bus is sent out. The pulse is sent to the diagnostic address line through the diagnostic address section (scale driver 2-302) and sent to the diagnostic address line of all other data communication control devices (through the scale signal driver 2-304). Bus counter 2-
205. This allows each data communication control device! The value of the address pulse counter of c102 is increased by +1. At this time, only the data communication control device 102 whose address matches its own is connected to the communication bus in the same manner as described above, and similarly checked. 0 Disconnection of the communication bus 105 1 Communication cable driver 2-103. Same receiver-2-1
04 is detected as an abnormality by the diagnosis determination unit 2-208 of the data communication control device 100 on the diagnosis side.

As a result, the next command to the diagnostic address pulse generator 2-203 is interrupted, and the diagnostic address pulse counter 2-205 is also stopped.Next, the central processing 101 detects the abnormality by reading the diagnostic pulse counter 2-205. The data communication control device 102 can be known. Note that the address matching section 2-206 shown in FIG.
, diagnosis/diagnosis determination unit 2-204, etc. are not particularly necessary in the data communication control device 100 on the diagnosis side, but if they have the same configuration, there is no need to prepare two copies of each type of data communication control device. , and highly flexible.

As described above, in the present invention, in addition to the normal communication bus, a diagnostic setting command line and a diagnostic address line are provided, and all other data are The communication control device is disconnected from the communication bus, and the configuration is such that only the friend data communication control device specified by address specification is connected, and from the fc to the communication bus due to failure of a communication cable driver or receiver other than the device to be diagnosed. It is possible to remove all the negative effects of

[BRIEF DESCRIPTION OF THE DRAWINGS] FIG. 1 is a diagram showing an overview of a data communication control device't-connected multi-data communication system of the present invention, and FIG. 2 is a block diagram showing an embodiment of the present invention. . In the figure, 100, 102...Data communication control device, 101...Central processing unit, 105...Communication bus, 106...Diagnostic setting command line, 107...Diagnostic address line, 108...・Instruction command)”, 2-001...
・Central processing unit interface section, 2-002...
Communication control unit, 2-101.2-102...OR circuit,
2-103...Communication cable driver, 2-10
4...Communication cable receiver-12-105...
Power section, 2-209...Diagnostic pulse 0 generation section, 2-2
01...Diagnostic pulse 1 generation section, 2-202...Diagnosis setting command section, 2-203...Diagnostic address pulse generation section, 2-204...Diagnosis/diagnosis determination section, 2-205
...Diagnostic address pulse counter, 2-206...
・Address match section, 2-207...Address section, 2
-208...Diagnostic determination unit, 2-301...Cable driver for diagnostic setting commands, 2-302...Diagnostic address pulse cable driver, 2-303...Cable receiver for diagnostic setting commands -12-304 ...Diagnostic address pulse cable receiver - 〇Representative Patent attorney Toshimune Sumita 9 U1 Figure 1 S1

Claims (1)

[Claims] A communication cable driver and a communication cable receiver connected to a communication bus are connected to other devices via the communication cable driver and receiver according to commands given by the central processing unit. A communication control unit that sends and receives signals and a complete data communication control device that includes a diagnostic setting command unit that issues a diagnostic setting command signal based on commands given by the central processing unit; Sentence control unit 4 → Equipped with an address pulse generation unit that generates a diagnostic address pulse, a test data generation unit, and a diagnosis determination unit that determines whether the received data is correct or not, and when diagnosing other data communication control devices, the diagnostic setting can be performed. Command department force/
sends a diagnostic setting command to the diagnostic setting command line, generates an address pulse from the diagnostic address pulse generator and sends it to the diagnostic address line, and transmits data other than the addressed data communication control device to the diagnostic address line. After stopping the power supply to the communication cable driver and the communication cable driver of the communication control device, the test data generation section sends the test data to the communication bus, and controls the communication of the data to be diagnosed. The test data returned from the device is input to the front self-diagnosis determining section through the communication cable register, and the normality of the data communication control device to be diagnosed is checked by the diagnostic determining section. Data communication control device.