DE3238461A1 - Circuit for the bidirectional transmission of data blocks - Google Patents

Abstract

The invention relates to a circuit for the bidirectional transmission of data blocks of variable length in half duplex mode between several subscriber stations with equal access authorisation to a common transmission channel with an adapter circuit between each subscriber station and transmission channel and one processing device each. The adapter circuit and the processing device exhibit a number of circuits so that they are suitable for a lower incidence of data, so that less demands can be made of the adapter circuits and in the other transmission channel itself and transmission errors can be largely reduced.

Description

Circuit for bidirectional transmission of voii

The invention relates to a circuit for 1idirectionn1en Transmission of data blocks according to the definition of the claim Circuit is from "digital" as well as tReroxt 'and "lntel" under the name "Ethernet" as well as by "Kontron" under the name "Net / Onc" in trade and is essentially used for communication between large computer systems. It is accordingly designed for very high transmission rates and large data blocks. With these systems very high demands are placed on the transmission channel with regard to broadband and put to the matching circuits with regard to delay times. All up listed systems work according to the CSMA / CD method, in which the subscriber stations have equal access to the transmission channel for sending.

Collisions on the transmission channel are recognized, the information but thereby destroyed, so that all participants involved in the collision after randomly generated waiting time have to send all of their data again.

Such systems are for in-house data transmission systems for whom high transfer rates are not so important, not suitable because here different, unspecified transmission channels and adapter circuits Use where a problem-free and error-free transmission anyway should be possible.

The invention has for its object to provide a circuit according to the To form the preamble of claim 1 so that they are used for less data is designed and adapting circuits between the subscriber stations and the transmission channel, as well as making significantly lower demands on the transmission channel itself, being over Faults in wear as a result of time differences and impulse deformations this should largely prevent the circuit from being automatic nn adapt the: npaßsci1altungen and the transfer can and if necessary automatically as a result, the transmission system can reduce the wind speed that the disturbance variables of the Transmission errors measured and taken into account during transmission or reception will.

Possible transmission errors should be added by adding Test information can be recognized. Collisions on the transmission channel should be without Destruction of the data in the order of urgency of the information and without the makeshift generation of random waiting times will be resolved. Here are allowed the data of the transmission that has already started is not transmitted to those subscriber stations either lost that canceled the sending process after a collision was detected.

According to the invention, the object is achieved by the features of the label of claim 1 solved. Further developments of the invention are set out in the subclaims described.

An embodiment of the invention is shown in X, eicls r) fr It shows: FIG. 1 an overall diagram of the circuit, FIG. 2 a list of the inside different pulses transmitted in an Ilatenblockes, FIG. 3 a simultaneous one Data transmission from two subscriber stations or stations with different Transmission speed, FIG. 4 a simultaneous transmission from two subscriber stations or stations with the same transmission speed, FIG. 5 shows a representation the definition of the logical values, FIG. 6 the structure of a data block, FIG 7 shows the structure of a receipt, FIG. 8 shows a detailed circuit of the receiving, Send and control device.

In Figure 1 is the overall transmission system, which includes all transmission channels and comprises signal converter, denoted by 51, the transmission channel denoted by 52. He must not be a ring channel and can be a conductor path, a radio path, a light path or be a frequency band. The signal converter marked 53 sets the for a transmission channel suitable signal form for another transmission channel appropriate waveform. The adapter 54 fits the transmitter Subscriber station to the respective transmission channel. This adjustment facility it can be a light-emitting, a frequency-sending or a voltage or current-switching one Be establishment.

f) ie with 7> 5 tXczeiehnctc receiving-side adapter adapts the transmission channel to the receiving device of the respective receiving Participant location. This adaptation device can be a light receiving, a be a frequency-selecting device or a voltage or current-detecting device. The sending line direction of each subscriber station, labeled 5G, is generated from the a corresponding pulse-width modulated data coming from the control device binary signal and couples this signal to the Transmission channel.

The receiving device designated by 57 of each subscriber station evaluates the pulse-width-modulated pulse width modulated received from the transmission channel via the adaptation device binary signal, uses this to generate the data transmitted by the sending station and forwards it to the control device.

The control device denoted by 58 checks whether the channel has been accessed can be activated, if necessary, the transmission device, determines whether further Bodies have accessed the transmission channel at the same time, then checks during the transmission, which priority over the own data to be transmitted owns the other data of the other sending participant and breaks its own Data transfer from when the data of another sending subscriber station a have higher priority, which is due to the priority code within the data block can be seen. After the data transfer has been completed by the other participant with a higher priority, the control device automatically tries its to send your own data. Also the control of your own receiving device and received data blocks are acknowledged by the control device. In addition, the data exchange between the transmitting / receiving part is carried out by the control device 58 and controlled by the system, the data being temporarily stored in the registers 59, 60 in parallel will.

The transmission of data blocks is described in FIG. Base of the method is the well-known pulse-position modulation. In the pause between The binary information "0" or "1" is transmitted over two pulses.

Start pulse At the beginning of each transmission of a data packet, a Start pulse generated by the sending point. Recognize on the basis of the pulse duration TS the receiving devices this start impulse and prepare to receive data before.

At the same time, the control devices prevent that for the long term the transmission of a data block can be accessed on the transmission channel can.

II Reference pause During the reference pause, the recipients receive the transmission speed transmitted, i.e. the pause times for the incoming binary information are transmitted Are defined. This means that the receivers are largely independent of pulse distortion and the transmission speed.

During this time, the sending station scans the transmission channel away. The transmission channel R remains after the one measured during commissioning. Delay Time the adapter circuit, in the active state, the transmitter cancels the transmission process because Another transmitter started transmitting almost simultaneously.

The start impulse is only insignificantly extended as a result. this has no meaning for the reception. The station that stopped sending leaves immediately into reception. This does not cut the reference pause. An exactly Simultaneous access by several transmitters is not yet recognized at this point in time, however, this does not falsify the data.

g separating pulse With these pulses the pauses are the information included, ended. During this time, the recipients process the previous one Pause and calculate their logical value.

+ OInformation The pause lengths correspond, determined by the Reference pause, the corresponding logical values.

Tg = log. 0 T1 = log. "1" During the breaks, the transmitters key the Transmission channel to see whether another body is transmitting. To this At this point there is only the possibility that 2 transmitters transmit synchronously. One Recognition of this state is only possible through the different information, that the sending stations want to send. In this case the log. "1" through, i.e. the pause for a log. "0" is shortened. The sending station that if the sending process is interrupted, the next one begins from this point in time To receive information. The previous information was different from the one still sending Station not differentiated, so that also the stations interrupted in the transmission process the information is not lost.

Cvi) Stop duration If a pause is no longer interrupted by pulses and the duration of the pause is reached recognized and the evaluation of the received information begins.

The information is checked for correctness with the help of a verification code that is also sent and then the received destination address is checked with its own station address checked. If the received information and the received destination address are correct, will processed the information and sent out an acknowledgment accordingly.

The acknowledgment consists of several bits and is sent at the same speed sent as the previous information was received. This can also Information from slower devices within a system can be acknowledged.

The receipt is structured in the same way as the information.

It also consists of a start pulse, reference pause and stop, only that the length of the receipt cannot be varied.

If a sending unit does not receive the sent information acknowledged, the information is sent again with reduced transmission speed. After the acknowledgment or after a certain waiting time TQ (if no acknowledgment is sent the data exchange is considered completed and the transmission channel is back free.

FIG. 3 shows simultaneous access by several subscriber stations on the transmission channel.

Case 1 shows a sending station A and a sending station B, whereby both stations or subscriber stations have a different transmission speed to have. Station B breaks the transmission within the "start" signal away.

FIG. 4 shows a case 2 of simultaneous access by several Subscriber stations on the transmission channel with the same transmission speed. The station B cancels the reception at the moment in which the two data blocks differ in their data. The one transmitted by both transmitters at the same time Information is identical and therefore neither of the two stations is lost.

A definition of the logical values is shown in FIG.

The receivers scan the transmission channel at fixed time intervals away.

The number of samples per logical state of the transmission channel are directly proportional to the duration of this state.

The information in the receiver is recovered from these sampling events. If the number of samples is less than the value 0.5T1, the duration of this logic applies State of the transmission channel as a fault. This also shows malfunctions and the interference immunity of the transmission increases. Since these times are all variable, The interference immunity also increases with slower transmission.

An acknowledgment must be sent within the time TQ, otherwise the information sent is considered unacknowledged and the transmission channel is open free again.

Figure 6 shows the structure of a data block.

Pre-information (start information, reference pause) for activation and setting the sampling conditions and decision thresholds of the receiving devices contains the function to be performed by the target station O Address field for destination address, contains the destination address. Depending on the address range, this field is variable in length.

QD field for additional information, contains necessary for function B. Extra information. Can also be omitted.

O Check information, provides the modulo-2 link according to the CRC procedure according to a certain regulation, the preceding information.

With this information, the received data can be checked for correctness to be checked.

t Stop: End of transmission 0 Acknowledgment: Acknowledgment information the selected receiving station.

In Figure 7, the structure of a receipt is shown, which is from a Subscriber station after successful receipt of a data block at the sending station is sent.

Q wie contains information (status, response to function, etc.) O check information like Q If the acknowledgment is received incorrectly, the speed is reduced again sent. The length of the acknowledgment information is constant.

The length of the information preceding the acknowledgment is variable.

Figure 8 shows a detailed breakdown of the receiving and transmitting device.

1 Receiving scanning device O Compensation device for pulse deformation checking device 4 comparison device 5 receipt recognition device Measuring and compensation device for delay time 7 Transmitter device 8 Transmission speed specification 9 Test code generation channel scanning device interrupt transmission - control circuit repeat transmission circuit Acknowledgment control storage device for received. u. data to be sent and Status 0 sequence control device Receiving process condition: receiving device reset, transmitting device passive When a level change is detected on the The transmission channel is blocked from the transmission channel. The receive scanner O begins to sample the level on the transmission channel to avoid any interference to filter out. If the level on the channel is static long enough, it will start recognized as such. The compensation device measures during the subsequent reference pause 0 and calculates the transmission speed from this the decision thresholds for the logical values of the subsequent pauses and the stop duration.

The subsequent pauses are taken from the receiving scanner 0 is measured and the binary information is recovered based on values to be calculated.

If a pause exceeds the stop duration, the transmission will end recognized the data with the help of the checking device 3 for accuracy checked and if no transmission error is detected, the received The destination address is compared with your own address and the result is displayed in the status. The received data and the status are saved in.

If your own address and the received destination address are identical, so the system must send an acknowledgment within the time TQ (see Fig. 2) cause.

If both are not identical, this is communicated in the status. The information If the acknowledgment does not take place within the time TQ, it is reduced Transfer speed a second time. Will the second transmission too not acknowledged, the channel is after the time TQ for all subscriber stations free again. The acknowledgment recognition device 0 gives a signal when it is the information received is an error-free acknowledgment.

Send blank on Before the start of sending, the data must first be transferred from the system to the storage device to be stored and a transmission request given. The test code generating device generates a test code from this data and adds him with the data. The channel scanner r \ continuously monitors the transmission channel and starts the transmission process if it is not used. The speed specification determines the transmission speed for the data. The transmitting device sets converts the data into a serial pulse train and outputs this via a channel adapter circuit on the canal. The channel scanner compares during the transmission process, under Consideration of the delay time to be measured by the matching circuits, which sent data with those actually transmitted on the transmission channel will. If there are differences, the transmission is canceled immediately by the transmission abort control circuit to stopped, the sent saved and the receiving device started to the To receive the rest of the data.

The data sent up to the interruption and the remainder received results in the entire transmitted data word. After the channel has been released, the transmission process begins started again by 10.

If no error-free acknowledgment is received after the transfer, conducts the retransmission circuit 12 a repeated transmission with reduced Speed one.

The transmission of a receipt is taken over by the receipt control, which first generates a check code and adds it to the receipt information. The transmission speed 0 is specified by the compensation device for the acknowledgment.

Determination of the delay time of the adapter circuits When applying the Operating voltage to the system, a waiting time is generated by each station, which depends on the participant address.

After the waiting time has elapsed, the transmitting device sends an impulse the end.

The different waiting times ensure that no Access takes place from several transmitters. The circuit determines the delay time between the output of the transmitting device and the input of the receiving scanner measured and stored on both edges of the pulse. These measured delay times are taken into account in the collision detection. This adapts the system automatically to the existing matching circuits and thus also to the transmission channel on.

Claims (1)

Circuit for bidirectional transmission of data blocks. PATENT CLAIMS Circuit for the bidirectional transmission of data blocks of variable length in the Half-duplex operation between several subscriber stations with equal rights on one common transmission channel, especially for in-house data transmission systems, with a receiver and a transmitter matching circuit between each subscriber station and transmission channel, as well as one processing device each, with each subscriber station, manually adjustable, an address is assigned, any information transmitted at all subscriber points of a system, apart from differences in runtime, simultaneously is applied and the information is received by each subscriber station, each transmitted Data block contains an address to be processed by the corresponding subscriber station of which a successful transfer is also acknowledged by the following features within each subscriber station: a) a receiving scanner, which scans the transmission channel during reception, filters out interference and recovers the transmitted information regardless of the transmission speed. (1) b) a compensation device in the receiving part, which when receiving of data, any impulse deformations caused by the transmission channel compensated and the speed of the transmission calculated and saved. 0 c) a checking device that checks the received data for correctness and accordingly ignores the data or releases it for further processing. Q d) a comparison device, which the address contained in the data with the compares own address and shows the result in the status. e) an acknowledgment circuit that detects the receipt of an acknowledgment recognizes and displays. Q5 f) a measuring and compensation device, the delay time detected by the adapter circuit from the transmitting to the receiving device and during the data transmission considered. z g) a transmission device that sends the data supplied by the system converted into a serial pulse train with the corresponding speed. Q7 h) a Transmission speed specification circuit with which the basic transmission speed can be adjusted. i) a check code generation circuit derived from the information to be sent generates a check code and adds this code to the information to be sent. Q9 j) a channel scanning device which checks whether the channel has been accessed which, if necessary, starts the sending process and from this point in time the transmitted logic levels with those transmitted on the transmission channel are compared, depending on the transmission process for different values the delay time measured under f), interrupts and at a later point in time starts again. k) an abort transmission control circuit which, when a transmission process is aborted saves the information sent so far and the direction of reception starts, which the Rest of the data block received. 11 1) a control circuit, diQ as a function of an invalid or incomplete acknowledgment an automatic repetition the transmission at a gradually reduced transmission speed. m) an acknowledgment control, which from the acknowledgment information a Verification code generated, saved for acknowledgment and initiating the transmission process, the transmission speed being that determined by the compensation device is calculated in the receiving part (b). 13 n) a storage device that handles the handover which enables data to and from the system. o) a process control device that controls the process between the individual Components controls. (The numbers behind the features refer to Figure 8): 2. Circuit according to Claim 1, characterized in that the transmission channel is a Is a conductor path, a radio path, a light path or a frequency band. 3. A circuit according to claim 1 or 2, characterized in that the Adaptation circuit a signal form suitable for a specific transmission channel of a data block into a signal form suitable for another transmission channel implements. Circuit according to one of Claims 1 to 3, characterized by an adaptation device of the transmission device in the form of a light-transmitting, a frequency-transmitting or a voltage or current-switching enclosure to the Subscriber station nn to adapt the transmission channel. 5. Circuit according to one of claims 1 to 4, characterized by an adaptation device at the receiving end in the form of a light-receiving, frequency-selecting one or voltage or current detecting device, which the receiving device adapts to the respective transmission channel. 6. Circuit according to one of claims 1 to 5, characterized by a transmitting device, based on the data received from the control device corresponding pulse-width modulated binary signal is generated and transmitted via the transmitting end Coupling device to the transmission channel. 7. Circuit according to one of claims 1 to 6, characterized by a receiving device, which receives the data from the transmission link via the receiving side Adaptation device evaluates incoming, pulse-width-modulated binary signal, takes the received data and forwards them to the control device. 8. Circuit according to one of claims 1 to 7, characterized in that that it is designed for the transmission of pulse-position-modulated pulses, wherein In the pause between two pulses, the binary information "0" or "1" is transmitted will.