DE102008004854A1 - Method for transmitting messages in a bus system, bus device and bus system - Google Patents

Abstract

It should be made possible that in a time-controlled communication system, in particular when a plurality of bus devices (10, 12, 14) are connected to one and the same bus, messages which a transmitting device (10) emits can be processed by a processing device (14), before they get to a receiving device (12). This is made possible by the fact that the processing device (14) retransmits transmission signals received and processed by it whenever possible in the same time slot, namely with a delay (32), in which it received them.

Description

The Invention relates to the field of timed communication systems, namely, those in which the time is divided into a plurality of time slots is. The individual participants of the communication system will be assigned to certain of these time slots so that said participants then can emit transmission signals in the time slots assigned to them. Usually are the time slots in a cyclical sequence the individual participants assigned. The communication process requires that the individual Synchronize subscribers, also known as "nodes" have to. Known protocols for data transmission in such communication systems are FlexRay, TTP / C and TTCAN.

The The invention is particularly concerned with transmitting such messages be that from a transmitter be sent out and processed in a processing unit before to a receiver reach.

Want you receive signals from another bus participant in a bus participant edit, this requires in the prior art separation of a bus in two branches. For example, when using the FlexRay protocol, there are at least two Node (bus participant) for the synchronization within a branch is required. That's how it works at separation of the bus lost the synchronization. The bus participants namely, received from one of the branches only signals over the processing these signals and the branches from each other Bus devices. In order not to violate the protocol, must be for everyone Branch of each remaining bus are simulated, and at one In such a simulation the time bases drift apart. In the prior art receives the processing bus device (the processing device) the signals from the transmitter in a first time slot and sends it in the appropriate time slot the other branch after editing again. This second one Time slot must be a time slot associated with the transmitter. Usually it is the next time slot in the sequence of timeslots, at the predetermined time slots belongs, to the transmitter are defined.

Because of the separation of a bus into two branches by editing Overall, the communication system must be very expensive. Because of the transmission of the signals in the respective next belonging to the transmitter time slot the messages from the transmitter also with considerable delay first to the receiving device, which in the worst case is so big like the cycle time of the time slots.

It Object of the invention, these disadvantages of the prior art to eliminate.

The Task is achieved by a method with the features according to claim 1 and a method enabling this bus device with the features according to claim 4 solved. By the method according to the invention or when using the bus device according to the invention is also a bus system with the features according to claim 6 allows.

at the method according to the invention sends the processing device thus received and processed by him transmission signals at least partially (viz especially if possible according to predetermined criteria) in the same timeslot (of course with Delay) back out, in which she has received it.

The Invention is a use of one in the timeslot usually defined buffer time. The length a time slot is in fact normal greater than the length a message (a so-called frame). It will be with the sending of the Message only started after a buffer time has elapsed, and There remains a buffer time after the transmission of the frame has ended in the time slot. The buffer times are defined because the individual devices are not perfectly synchronized with each other. Usually, however, the buffer times are very generously designed. Therefore, it makes sense if the processing device (in advance, ie before receiving the transmission signals) detects how exactly a corresponding clock to him (Timer) synchronized with a clock (a timer) of the transmitter is. In addition, it should (in advance in particular) estimate or calculate how long Editing the transmission signals takes. Because of the first information can the editing device determine how much of the buffering time is actually due to the imperfect one Synchronization of the two clocks is required (minimum remainder buffer time). Based on the second information, the time delay can be estimated with the processing unit can send out the processed transmission signals again. So that can estimated how much the buffer time is shortened. Thus, can be derived whether from a buffer time in the time slot, the minimum remainder buffer time remains. For this purpose, a residual buffer time of greater than a certain number of microseconds, the minimum remainder buffer time can be set but also be equal to 0 microseconds, if of perfect synchronization has gone out. Remains the minimum remainder buffer time, then takes place transmitting the processed transmission signals in the same time slot, in which they were received.

By the time delay of sending the processed transmission signals by the Bearbei device could cause synchronization errors. This would be the case in particular if the transmission signals comprise a synchronization signal which is transmitted unchanged with time delay. Therefore, the processing apparatus should disable (cancel) a sync signal included in the transmit signal, for example, reset (to 0) a sync bit set to (1).

The Bus device according to the invention is designed to processed transmit signals in the same time slot with delay again Send out, where it receives them. It is preferably designed to recover one from a buffer time receiving and processing until re-sending the transmission signals to determine the remaining buffer time remaining and the processed send signals only then send out in the same time slot with delay, in which it has received it, if the residual buffer time exceeds a minimum value. If the residual buffer time is not sufficient, you can contact the procedure according to the state linked to the technology which means that the transmission signals in the next one Transmitter, from which they originate, allocated time slot, to be forwarded.

to Invention belongs the first-time provision of a bus system, in particular As a FlexRay bus system may be configured, wherein a plurality of bus devices belongs to the bus system, a transmitter transmits the transmission signals which are processed by a processing device, before going to a receiving device are sent, wherein unlike in the prior art all bus devices on the same a (FlexRay-) bus are connected and therefore syncable.

It deleted thus by the division of the bus in two branches in the state the technology necessary effort. Due to the synchronizability of all bus devices is a good functioning of the communication in the bus system, in particular without time delay guaranteed.

One Bus system according to claim 6 is particularly providable if the processing device a bus device the type of the invention is.

following becomes a preferred embodiment of the invention described with reference to the drawings, wherein

1 illustrates a communication system according to the prior art,

2 illustrates a communication system according to the invention, which is designed as a coherent bus system,

3A the time course of the transmission of signals in a time slot by a transmitting device and

3B the time course of the transmission of signals by a processing device, the in 3A has received and processed signals illustrated using the method according to the invention.

A transmitter 10 sends in a timed communication system transmission signals in predetermined, namely exactly the transmitter 10 allocated, time slots. Before the transmission signals to a residual bus 12 , in particular to a receiving device, they should pass through a processing device 14 to be edited. The processing device 14 usually operates to receive and process the transmission signals in one time slot and then in the next to the transmission equipment 10 forwarded allocated time slot. This results in a delay in the transmission of the transmission signals, which corresponds to the time interval between two time slots that belong to the same device, that is defined by the so-called transmission frequency. The procedure in the prior art requires that the communication system by the processing unit 14 divided into two parts, namely a first FlexRay cluster 16 and a second FlexRay cluster 18 , The two FlexRay clusters are each branches of a FlexRay bus. The two FlexRay clusters no longer have a common time base. Rather, the first FlexRay cluster has 16 a first time base and the second FlexRay cluster 18 a second time base, transmitter 10 on the one hand and residual bus 12 on the other hand, with the receiving device are no longer synchronized.

The method according to the invention now makes it possible to provide a bus system 20 , at the transmitter 10 , Processing device 14 and rest bus 12 are connected to the receiver on a single FlexRay bus, so there is only one FlexRay cluster, whereby all bus users (bus devices) receive a common time base.

The inventive method, which of the processing device 14 will now be explained with reference to a temporal waveform. 3A shows the waveform in a whole with 22 designated time slot. The time slot 22 is in a first section 24 , a second section 26 and a third section 28 divided. The sections 24 and 28 are buffers. In the section 26 the actual message or message is sent, that is a so-called frame. A frame has one in front certain length, and this is shorter than a timeslot. For example, the duration of a frame is 65 μs. The buffer 1 (section 24 ) has a duration of 5 μs, and buffer 2 (section 28 ) has a duration of 7 μs. Overall, the timeslot has 22 ie a duration of 77 μs with a duration of a frame of 65 μs. Exemplary is in 3A a signal 30 shown in the frame 26 is transmitted. The processing device 14 now receives more or less in the 3A Ideal signal shown: Sends the transmitter 10 the frame 26 in the time slot 22 just like in 3A shown receives the processing device 14 the signals also correspond when the clock of the processing unit 14 Perfect with the transmitter 10 is synchronized. The processing device 14 As part of a continuous data flow, it can now determine how well its clock is synchronized with that of the transmitter. The error in the synchronization causes the minimum remainder buffer time remaining in the time slot 22 after completion of sending the frame 26 may still remain. The processing device 14 It takes a certain amount of time to receive and edit until the retransmission can begin. This also takes into account the processing unit 14 , The processing device 14 can detect whether a minimum remainder buffer time from buffer 2 (section 28 ), in view of the synchronization error between the clock of the processing device 14 and the clock of the transmitter 10 has been defined, given the time required to receive, edit, and retransmit. If so, send the processing device 14 for example in a time slot 22 the frame 26 ' as in 3B shown with a predetermined delay 32 , The duration of the section 28 will be the same delay 32 shortened, leaving a shorter section 28 ' results. The processing device 14 here has determined that the duration of the section 28 ' is sufficiently large to account for the synchronization error.

The invention makes use of the use of the buffers, in particular that there is the buffer 2, that is a buffer, after the completion of a frame 26 is provided. Because of the presence of this buffer 2, it is possible to frame the frame after its processing 26 ' with delay 32 (if the delay 32 not too big).

It can if the editing device 14 only the signal 30 edited, already with the retransmission with the delay 32 be started before the frame 26 was completely received, so too, before the signal 30 was received. The reception time when calculating the delay 32 is set, is only for the pure electronic process of receiving in the processing unit 14 necessary time and does not include a wait from the beginning of the frame 26 up to the signal to be processed 30 ,

Claims (7)

Method for transmitting messages from a transmitting device ( 10 ) via a processing device ( 14 ), in which the messages are processed, to a receiving device ( 12 ), wherein in a communication system a sequence of time slots ( 22 ) and transmit signals ( 26 . 26 ' ) from the transmitter ( 10 ) in predetermined time slots ( 22 ) are transmitted from this sequence, characterized in that the processing device ( 14 ) received and processed by him transmit signals at least partially in the same time slot ( 22 ), in which it received it. Method according to claim 1, characterized in that the processing device ( 14 ), how exactly a belonging to him clock with a clock of the transmitter ( 10 ), and that it estimates or calculates how long it takes to receive and process until the transmission of the transmitted signals, and that it derives from these two pieces of information whether a buffer time ( 28 ) in the timeslot ( 22 ) a minimum remainder buffer time ( 28 ' ) remains and in this case sends out the transmission signals which it has processed in the same time slot in which it received them. Method according to Claim 1 or 2, in which the processing device ( 14 ) suppresses a synchronization signal contained in the transmission signals. Bus device ( 14 ) for receiving and processing transmission signals from another bus device ( 10 ) when connecting both bus devices ( 10 . 14 ) is designed for a bus in which a sequence of time slots is defined and the transmission signals from the other bus device ( 10 ) are transmitted in predetermined time slots, characterized in that the bus device ( 14 ) is adapted to process processed transmission signals in the same time slot ( 22 ) with delay ( 32 ), in which it receives it. Bus device ( 14 ) according to claim 4, characterized in that it is adapted to a residual buffer time remaining from a buffer time after receiving and processing and retransmitting transmission signals ( 28 ' ) and the processed transmission signals only in the same time slot ( 22 ) with delay, in which it has received it, if the remaining buffer time ( 28 ' ) exceeds a minimum value. Bus system ( 20 ), in particular FlexRay bus system with a plurality of bus devices ( 10 . 12 . 14 ), wherein a processing device ( 14 ) of the bus devices for editing from a sending device ( 10 ) of the bus devices emitted transmission signals is designed before the processed transmission signals to a receiving device ( 12 ) of the bus devices, characterized in that all bus devices ( 10 . 12 . 14 ) are connected to the same bus and synchronized. Bus system ( 20 ) according to claim 6, characterized in that the processing device ( 14 ) is a bus device according to claim 4 or 5.