DE4333953A1 - Unidirectional data channel testing method - sending test data e.g. images to channel, comparing reception frequency with transmission frequency and detecting reference data - Google Patents

Abstract

A data channel (6) is tested, the opening (4) of the channel being connected to a data source (2). Test data are sent to the data channel, the data including at least a reference datum. The test data are received at the end (8) of the data channel, and the reception frequency of the reference datum is indicated. The reception frequency is compared to the transmission frequency, and the comparison result is indicated. A data source control circuit (16) is connected to a bidirectional control channel (18). The data source is an image processor and the test data are test pictures. ADVANTAGE - Quick, automatic fault detection.

Description

The invention relates to a method for checking a unidirectional data channel, the beginning of which with a da source is connected.

A data transmission system generally consists of a data source, a data sink and a data channel, over which the data of the data sent by the data source be depressurized. Is a data or informa flow only possible from the data source to the data sink, one speaks of a unidirectional data channel. If a flow of data or information from both the data source to the data sink and vice versa from the data sink to the data source is possible, then a bi directional data channel spoken. The information Flow from the data sink often affects control functions of the Data transfers, such as B. Messages about ready to receive shaft or confirmation of receipt of the data sink.

Only a unidirectional data channel is available Data transmission used, then only limited a faulty transmission can be detected. Include this ten in a known error detection method transmitted data additional information that a Enable error detection. However, this will make the Da transmission speed of the pure user data discontinued.

With less critical data transfers is therefore on permanent monitoring of data transmission is dispensed with.  

If a data transmission error then occurs, there is no monitoring the faulty link in the data transfer system not known. Rather be to fix it the components involved in the error Structure of the data transmission system successively swaps until the data transfer is error-free again follows. This procedure requires a service call on site, which can be very complex.

The invention is based on the object, a Ver drive to check the unidirectional data channel specify.

The task is accomplished through a procedure with the following Steps solved:

• - From the data source, the data channel becomes test data fed that contain at least one reference date, which is sent with a transmission frequency,
• - At the end of the data channel, the test data are received and a frequency of reception of the at least one Re reference date determined,
• - The frequency of reception is ver with the frequency of transmission like and
• - The result of the comparison is reported.

This procedure reduces the time spent on errors search locally because of the number of possible faulty ones Assemblies is already restricted. In addition, the Data channel regularly, e.g. B. each time the Data transmission system to be checked automatically.

An advantageous embodiment is characterized by that the data source includes data source control that the data source control with the beginning of a bidirect  onal control channel is connected that the reception frequently of the at least one reference date about the tax channel of the data source control is reported and that the Frequency of reception with the frequency of transmission of the data source control is compared. The use of one already existing bidirectional control channel for reporting the Frequency of reception allows a particularly simple reality the review.

A particularly advantageous embodiment is distinguished characterized in that the end of the data channel and the end of the Control channel via a diagnostic device with data Sink is connected that the diagnostic unit before closing routing of the test data the control channel from the data sink separates that the diagnostic unit the frequency of reception of the at least one reference date determines that the diagnosis unit the frequency of reception via the control channel of the Data source control reports and that the diagnostic unit after reporting the control channel again with the data sink connects. This can be done with a single control command Procedures for review are activated without wah After checking the data sink on the wheel interpret the commands sent as channel signals can.

Further embodiments are ge by the subclaims indicates.

An embodiment of the invention is as follows explained using a figure. It shows:

Fig. 1 shows the structure of a data transmission system, in which the method for checking is implemented.

A data source 2 , the z. B. represents a coupled to a magnetic resonance imaging device, is connected to the beginning 4 of a unidirectional data channel 6 . The end 8 of the unidirectional data channel 6 is connected to a diagnostic unit 10 , which connects the unidirectional data channel 6 via an internal data connection 12 to a data sink 14 , such as, for. B. connects a digital laser camera. The data channel 6 and the internal data connection 12 is e.g. B. suitable to transmit 8 bits in parallel.

For controlling the entire data transfer Since the tenquelle 2 a data source controller 16, a angeord specified in the diagnostic unit 10 internal control link 20 is connected to the data sink 14 via a control channel 18 and comprises. The control channel 18 and the internal control connection 20 allow serial transmission of the data and are, for. B. executed according to the EIA standard (EIA = Electronic Industries Association) RS-232.

A switch 22 is inserted in the internal control connection 20 and is closed during normal operation contrary to the switch position shown in FIG. 1. The diagnostic unit 10 is then permeable both for data given on the data channel 6 and for control commands given on the control channel 18 , the diagnostic unit 10 thus does not influence normal data transmission.

At the internal data connection 12 , the data inputs of two comparators 24 , 25 are connected, each of which generates a counting pulse upon the occurrence or reception of a reference data which can be predetermined by a diagnostic control 26 via a line 28 . The counting pulses are supplied to the counters 30 , 32 belonging to the diagnostic control 26 via lines 34 , 36 .

The diagnostic control 26 is also connected via a line 28 to the side of the internal control connection 20 facing the data source control 16 .

The method for checking the unidirectional data channel 6 is initiated by a start command which the data source controller 16 addresses to the diagnostic controller 26 via the control channel 18 . The diagnostic control 26 then opens the switch 22 , as a result of which the data sink 14 is separated from the control channel 18 . The diagnostic control 26 loads the two comparators 24 , 25 , each with a reference data with which test data sent via the data channel 6 are to be compared.

The data source 2 now supplies the data channel 6 with test data in the form of a test image, which contain the two reference data at least once. At the end of the data channel 8 , the test data are received by the diagnostic unit 10 and the frequency of reception of the two reference data is determined by means of the comparators 24 , 25 . After the transfer of the test data is completed, which z. B. takes one second in the transmission of a test image with a data volume of 1 Mbyte and a data transmission speed of 1 Mbyte / s, the diagnostic controller 26 reports the frequency of reception of the reference data to the data source controller 16 and then closes the switch 22 . The data source controller 16 now compares the transmission frequency with the reception frequency and reports the result of the comparison. The notification can be made both on site and via a telecommunications device.

It should be pointed out that the data channel can also be checked with only one reference date and thus with only one comparator and counter. By using two reference data, however, the dynamic transmission behavior of the data channel 6 can be checked particularly advantageously. Both zero-to and one-to-zero transitions on the data channel can then be checked for each line. For an 8-bit parallel data channel z. B. as the first reference date, the bit combination "10101010" and for the second reference date, the bit combination "01010101" is taken. If the two reference data are now sent in alternating succession, the zero-to-one and one-to-zero transitions can be checked.

Claims (6)

1. A method for checking a unidirectional data channel ( 6 ), the beginning ( 4 ) of which is connected to a data source ( 2 ), with the steps:

• - Test data are supplied to the data channel ( 6 ) from the data source ( 2 ) and contain at least one reference date, which is sent with a transmission frequency,
• at the end ( 8 ) of the data channel ( 6 ), the test data are received and a frequency of reception of the at least one reference data is determined,
• - The frequency of reception is compared with the frequency of transmission and
• - The result of the comparison is reported.

2. The method according to claim 1, characterized in that the data source (2) comprises a data source control (16), that the data source control (16) is connected to the beginning of a bidirectional control channel (18), that the receiving Frequently ness of at least one Reference date is reported via the control channel ( 18 ) of the data source controller ( 16 ) and that the frequency of reception is compared with the frequency of transmission from the data source controller ( 16 ). 3. The method according to claim 2, characterized in that the end ( 8 ) of the data channel ( 6 ) and the end of the control channel ( 18 ) via a diagnostic unit ( 10 ) is connected to a data sink ( 14 ) that the diagnostic unit ( 10 ) before supplying the test data, the control channel ( 18 ) separates from the data sink ( 14 ) that the diagnostic unit ( 10 ) determines the frequency of reception of the at least one reference data, that the diagnostic unit ( 10 ) determines the frequency of reception via the control channel ( 18 ) Data source control ( 16 ) reports and that the diagnostic unit ( 10 ) connects the control channel ( 18 ) with the data sink ( 14 ) again after the message. 4. The method according to claim 3, characterized in that the frequency of reception of the at least one reference date is determined with one comparator ( 24 , 25 ) each, in the diagnostic unit ( 10 ) on the input side with the data channel ( 6 ) and in each case on the output side a counter ( 30 , 32 ) is connected. 5. The method according to claim 4, characterized in that the at least one comparator ( 24 , 25 ) is loaded with a reference date in each case. 6. The method according to any one of claims 1 to 5, characterized in that the data source ( 2 ) is an image computer and that the test data result in a test image.