CN1302140A - Data enchange device and method - Google Patents

Abstract

The present invention is a device and a method for data exchange inside time interval HDLC's of Ethernet and E1. Different data transmitting channels and first established by means of 30 time intervals of E1 site group, and the 30 channels of data are then TCP packaged in certain frame format and accessed to Ethernet. When the said device and method is used in access to Internet of multiplex data, each terminal bureau may transmit in different bandwidth and this results in high flexiblity and low transmission cost.

Description

Switch and method

The present invention relates to the communication technology, be specifically related to the Data Interchange Technology in the long distance control system, more particularly, relate to switch and method between the inner HDLC of each time slot of a kind of 10M Ethernet and E1.

In existing remote supervisory and control(ling) equipment, what the transmission of data was adopted usually is point-to-point mode, promptly utilizes a 64K time slot of E1 basic group to provide a synchronous transparent serial ports to transfer of data.This method all will adopt a pair of transmission equipment to each transmission channel, thereby caused cost more expensive, in addition, adopting under this mode, if port number is a lot, corresponding each passage all will insert a serial ports, if these serial ports all will be received on same the computer, when focusing on, the wiring that just seems is too complicated, and quantities is big.Also have and adopt the MODEM dial mode, the speed of this mode is slower, and adopts the MODEM transmission to be easy to generate to connect to interrupt, and itself also is not suitable for the requirement of the real-time and the reliability of Industry Control.

The purpose of this invention is to provide a kind of switch and method, can effectively solve the transmission and the indulging in the internet of multichannel data, by this equipment or make and to utilize each time slot of E1 to set up independently data transmission channel in this way, realize each time slot of E1 basic group and the exchanges data between the Ethernet, reduce the required cost of transmission equipment, simplify networking mode and quantities, and the real-time of this mode and reliability improve a lot also with respect to the transmission of MODEM.

For addressing the above problem, set up different data transmission channels by 30 time slots (removing time slot 0 and time slot 16) of E1 basic group.The access of 30 circuit-switched data is provided, then 30 circuit-switched data is carried out the TCP packing by certain frame format, be linked in the Ethernet.Realized focusing on of data like this, saved cost, simplified networking mode, inserted number of active lanes for a long time, quantities reduces greatly.

According to switch provided by the invention, it is characterized in that, comprise the E1 interface unit, the Ethernet interface unit and be connected described E1 interface unit and described Ethernet interface unit between data processing unit, described E1 interface unit comprise between HDB3 sign indicating number and the inner PCM passage waveform converting unit and to the unit of circuit alarm information processing and demonstration, described data processing unit receives from the multichannel HDLC data on the inner PCM passage, and these data are carried out after HDLC unpacks, pack according to certain internal agreement, send to the Ethernet interface unit by tcp module; Simultaneously, to the packet of sending from Ethernet from the Ethernet interface unit, unpack earlier, data based inter-process agreement after unpacking is sent to respectively in the different data transmission channel buffering areas, and then the data of inside, different channel data buffers district are carried out HDLC packing be issued on the corresponding time slot of inner PCM passage, described Ethernet interface unit comprises the conversion between the waveform in Ethernet waveform and the plate and is implemented in the interface of standard 10-base Ethernet.

According to switch provided by the invention, it is characterized in that, described E1 interface unit mainly is made of E1 interface chip DS2154 and E1 interface transformer PE-68825, adopt toggle switch to carry out impedance matching and make it to be applicable to 75W coaxial cable or 120W balancing twisted-pair line, finish the conversion between inner PCM passage and the outside E1 interface.

According to switch provided by the invention, it is characterized in that, described data processing unit comprises that MC68MH360 is used to cooperate software to realize 30 road HDLC data are received, described MC68MH360 links to each other with MC68160 by serialization controller SCC, constitutes Ethernet interface with PE-68025 Ethernet interface transformer data and finishes the TCP/IP data transmit-receive.

Method for interchanging data of the present invention can is characterized in that with the multichannel HDLC transfer of data transmitted on the E1 circuit to Ethernet, said method comprising the steps of:

Upstream data by the input of E1 interface, is converted to inner pcm stream,, and these data is carried out TCP/IP pack, be transferred on the Ethernet by the HDLC data on each passage of CPU reception pcm stream;

Downlink data is imported by Ethernet interface, carry out TCP/IP by CPU and unpack, according to the internal agreement that unpacks the back data, these data are put into respectively on the passage of appointment then, carry out the HDLC protocol packing again and send on the PCM passage, at last by E1 interface output E1 signal.

Method for interchanging data of the present invention, it is characterized in that, comprise multichannel HDLC data in the described upstream data by the input of E1 interface, E1 time slot of every road HDLC data occupancy, described after the E1 interface conversion is HW, each passage HDLC data is unpacked on corresponding time slot by CPU, in said process, earlier the data that receive are deposited in the HDLC Data Receiving buffering area of this passage correspondence, and then go to handle next road HDLC data.

Method for interchanging data of the present invention, it is characterized in that, described each channel data is transferred on the Ethernet to be finished by TCP, after each channel data reads in from the HDLC reception data buffer, carrying out framing according to information such as its channel number, length handles, through after the Transmission Control Protocol packing, be transferred on the Ethernet again through Ethernet interface.

Method for interchanging data of the present invention, it is characterized in that, described from Ethernet input downlink data by realizing at CPU operation TCP Sever, setting up with after too on-line apparatus SOCKET is connected, receive the packet that the ether on-line apparatus is sent here, and the passage and the length information that are comprised according to this bag, the HDLC to respective channel sends in the buffering area with the deposit data received, carry out the HDLC packing data then and send to assigned timeslot, thereby finish whole data handling procedure.

Implement switch provided by the invention and method, can finish the multichannel data online by this, in networking, utilize a this equipment provided by the invention can be with 30 end office (EO)s, and each end office (EO) can transmit with different bandwidth, thereby improved the flexibility of networking greatly, saved transmission cost.Data directly go up Ethernet, are convenient to carry out subsequent treatment, and networking structure is clear, has reduced quantities.

In conjunction with the accompanying drawings and embodiments, further specify the characteristics of present device and method, in the accompanying drawing:

Fig. 1 is the handling process schematic diagram of explanation method for interchanging data of the present invention;

Fig. 2 is the FB(flow block) of TCP server among the explanation method for interchanging data embodiment of the present invention;

Fig. 3 is that HDLC receives the FB(flow block) of interrupting among the explanation method for interchanging data embodiment of the present invention;

Fig. 4 is that HDLC sends the FB(flow block) of interrupting among the explanation method for interchanging data embodiment of the present invention;

Fig. 5 is the logical construction schematic diagram of explanation switch of the present invention;

Fig. 6 is the structural representation of explanation switch application system of the present invention;

The present invention has utilized the time slot of E1 circuit and the notion of sub-slots, the E1 basic group is divided into 32 time slots, each time slot is 8 bits, if 8bit in each time slot is segmented, can allow the part bandwidth of data occupancy time slot, the method of time slot segmentation is in each time slot of sub-slots, data are by HDLC (High-Level Data Link Control) protocol transmission, data can take 1 ~ 8 (requirement according to transmission rate can be selected different bandwidth) of a time slot, by switch provided by the invention, after the data with the HDLC protocol packing of a plurality of time slots (maximum 30 tunnel) in the E1 circuit can being solved, again this multichannel data is carried out the TCP/IP packing according to certain agreement, be transferred on the Ethernet.Another invention, this equipment also receives the data on the Ethernet simultaneously, and the data based certain agreement that will receive sends in the E1 time slot of appointment with the HDLC protocol packing respectively, thereby can finish the exchanges data in Ethernet and each time slot passage of E1.Why adopting certain agreement is in order to guarantee that the equipment on Ethernet can be according to the source of this protocol identification data, and each circuit-switched data can not obscured.

Particularly, provided by the invention with the multichannel HDLC transfer of data transmitted on the E1 circuit method to the Ethernet, comprise following link: upstream data is imported by the E1 interface, be converted to HW, after receiving the HDLC data of each passage on this HW by CPU then, again these data are carried out the TCP/IP packing, be transferred on the Ethernet; Downlink data is imported by Ethernet interface, carries out TCP/IP by CPU and unpacks, and according to the internal agreement that unpacks the back data, these data is put into respectively on the passage of appointment then, carries out the HDLC protocol packing again and sends, at last by E1 interface output E1 signal.

The function of each module that the inventive method is described in conjunction with Fig. 1 is as follows: can be divided into three parts on function, promptly the E1 interface section 1, data processing section 2, Ethernet interface part 3.The HDB3 sign indicating number that transmits on the E1 circuit and the conversion between the inner HW waveform are finished in E1 interface section 1, and finish the processing and the demonstration of the warning message etc. of relevant circuit.

Data processing section 2 is finished the multichannel HDLC data that receive on the E1 circuit, and these data are carried out packing according to certain internal agreement after HDLC unpacks, and sends on the Ethernet by tcp module; To the packet of sending from Ethernet, data processing section at first unpacks, data based inter-process agreement after unpacking is sent to respectively in the different channel buffers, and then the data of inside, different channel data buffers district are carried out HDLC packing be issued on the corresponding time slot of HW.

Ethernet interface part 3 is mainly finished the conversion between the waveform in waveform on the Ethernet and the plate.Be implemented in the interface of standard 10M Ethernet.

Software as an embodiment who realizes the above-mentioned method for interchanging data of the present invention comprises 2 interruptions (physical layer receives and interrupts and physical layer reception interruption), a TCP Server task, and wherein, the physical layer receiving unit is operated under the interrupt mode.After the logical channel of CPU receives a complete HDLC frame, will produce interruption, carry out interrupt module.Interrupt module will call the receiver function of link layer, send the data that receive to link layer, obtain new reception buffering area from link layer simultaneously; Physical layer sending part branch is operated under the interrupt mode.After the logical channel of CPU sends a complete HDLC frame, will produce interruption, carry out interrupt module.Interrupt module will call the transmission of link layer and handle function, discharge to send buffering area, take out next blocks of data then from transmit queue, give physical layer and send; TCP Server adopts single task, periodic duty mode.Enter during beginning " wait for network on the equipment that moves set up socket and be connected " state, after connection foundation, enter with network on the state of operational outfit communication.Task adopts Non-Blocking I/O.After a circulation is finished, carry out task and switch, give other ready tasks with CPU.

Above-mentioned TCP server program flow process as shown in Figure 2, beginning in frame 201, creating Socket in frame 202 connects, bundling port in frame 203, in frame 204, connection waiting list length is set, in frame 205, accept connection request, in frame 206, judge whether to receive network data, if receive network data, in frame 207, phase-split network receives data and also sends to corresponding time slot, judges at frame 208 that 3 second time interval arrive to deny, as to 3 second time interval, check in frame 209 that then E1 receives formation, the data online of then packing is arranged, as not to 3 second time interval, then change judging whether not receive in continuous 20 seconds network equipment handshake in the frame 210, then forward frame 202 in this way to, as otherwise forward frame 206 to.

Fig. 3 has provided HDLC and has received the workflow of interrupting.As shown in the figure, new buffering area is offered in beginning in frame 302 in frame 301, at frame 303, the data that receive is put into the reception formation, revises in frame 304 and returns new buffer pointer, returns at frame 305.

Fig. 4 has provided HDLC and has sent the workflow of interrupting.As shown in the figure, beginning in frame 401 checks in frame 402 whether be empty, discharge at frame 403 to send buffering area if sending buffering area, take out next packet at frame 404 from receiving formation, at frame 405, gives physical layer with packet and send, and interrupts returning at frame 406.

In the switch of implementing this method, actual used main chip as shown in Figure 5, the E1 interface module mainly is made of E1 interface chip DS2154 and E1 interface transformer PE-68825, the method that adopts toggle switch to carry out impedance matching can make native system be applicable to 75W coaxial cable or 120W balancing twisted-pair line.Can finish conversion between inner HW and the outside E1 signal by this circuit.The MC68MH360 that data processing module adopts, under software was supported, it can realize 30 tunnel (every time slot corresponding a tunnel) HDLC data are received, and the bandwidth that data take in a time slot can be set.MC68MH360 can link to each other with MC68160 by serialization controller SCC, constitutes Ethernet interface with PE-68025 Ethernet interface transformer data, finishes the TCP/IP data transmit-receive under software control.In this system, MC68MH360 finishes the most crucial data processing function of system as CPU.

In real work, adopt the E1 circuit to send into multichannel HDLC data, E1 time slot of every road HDLC data occupancy, after the E1 interface module is converted to HW, be input to MC68MH360, MC68MH360 unpacks the HDLC data on the corresponding time slot of HW, and the data that receive are deposited in the HDLC Data Receiving buffering area of this passage correspondence, and then go to handle next road HDLC data.The transfer of data of each passage is finished by TCP to Ethernet, after each channel data reads in from the HDLC reception data buffer, carries out framing according to information such as its channel number, length and handles, and the SOCKET through tcp module sends again.Be transferred on the Ethernet through Ethernet interface.The process that data receive from Ethernet is by moving a TCP Sever, after waiting for that ether on-line apparatus and its are set up SOCKET and be connected, receive the packet that the ether on-line apparatus is sent here, and according to this bag passage and the length information that are comprised, HDLC to respective channel sends in the buffering area with the deposit data received, send to assigned timeslot etc. pending HDLC packing data, thereby finish whole data handling procedure.

In an application example shown in Fig. 6, data realize inserting by the data insertion equipment of far-end, to be inserted in the time slot of 2M circuit after the data process HDLC packing, after process transmission switching equipment carries out exchanging convergence, on exchanges data to the 2M circuit with each far-end, send on the data and handle in the wire stitcher, can carry out exchanges data by network and data processing equipment with wire stitcher on the data that local area network (LAN) LAN is connected.Require the remote data access device that the ability that data is linked into the time slot of E1 after by the HDLC protocol packing is arranged herein.

Claims (7)

1, a kind of equipment that exchanges in the inner HDLC data of each time slot of Ethernet and E1, it is characterized in that, comprise the E1 interface unit, the Ethernet interface unit and be connected described E1 interface unit and described Ethernet interface unit between data processing unit, described E1 interface unit be used to carry out between HDB3 sign indicating number and the inner PCM passage conversion and to circuit alarm information processing and demonstration, described data processing unit receives the multichannel HDLC data that receive from the E1 interface unit, and these data are carried out after HDLC unpacks, pack according to certain internal agreement, send to the Ethernet interface unit by tcp module; Simultaneously, to the packet of sending from Ethernet from the Ethernet interface unit, unpack earlier, data based inter-process agreement after unpacking is sent to respectively in the different channel buffers, and then the data of inside, different channel data buffers district are carried out HDLC packing be issued on the corresponding time slot of PCM passage, described Ethernet interface unit comprises the conversion between the waveform in Ethernet waveform and the plate and is implemented in the interface of standard 10M Ethernet.

2, switch according to claim 1, it is characterized in that, described E1 interface unit mainly is made of E1 interface chip DS2154 and E1 interface transformer PE-68825, adopt toggle switch to carry out impedance matching and make it to be applicable to 75W coaxial cable or 120W balancing twisted-pair line, finish the conversion between inner PCM passage and the outside E1 signal.

3, switch according to claim 1, it is characterized in that, described data processing unit comprises that MC68MH360 is used to cooperate software to realize 30 road HDLC data are received, described MC68MH360 links to each other with MC68160 by serialization controller SCC, constitute Ethernet interface with PE-68025 Ethernet interface transformer data, by software processes, finish the TCP/IP data transmit-receive.

4, a kind of method for interchanging data can is characterized in that with the multichannel HDLC transfer of data transmitted on the E1 circuit to Ethernet, said method comprising the steps of:

Upstream data by E1 interface input, is converted to inner pcm stream, receives HDLC data on each time slot passage of inner PCM, and these data are carried out the TCP/IP packing, be transferred on the Ethernet by CPU;

Downlink data is imported by Ethernet interface, carrying out TCP/IP by CPU unpacks, then according to the internal agreement that unpacks the back data, this packet is put into respectively in the channel buffer of appointment, carry out again sending by inner PCM passage assigned timeslot after the HDLC protocol packing, at last by E1 interface output E1 signal.

5, method for interchanging data according to claim 4, it is characterized in that, comprise multichannel HDLC data in the described upstream data by the input of E1 interface, E1 time slot of every road HDLC data occupancy, described after the E1 interface conversion is inner pcm stream, each passage HDLC data is unpacked on corresponding time slot by CPU, in said process, earlier the data that receive are deposited in the HDLC Data Receiving buffering area of this passage correspondence, and then go to handle next road HDLC data.

6, method for interchanging data according to claim 4, it is characterized in that, described each channel data is transferred on the Ethernet to be finished by TCP, after each channel data reads in from the HDLC reception data buffer, carry out framing according to information such as its channel number, length and handle, handle after Ethernet interface is transferred on the Ethernet through Transmission Control Protocol again.

7, method for interchanging data according to claim 4, it is characterized in that, described from Ethernet input downlink data by realizing at CPU operation TCP Sever, setting up with after too on-line apparatus SOCKET is connected, receive the packet that the ether on-line apparatus is sent here, and according to this bag passage and the length information that are comprised, HDLC to respective channel sends in the buffering area with the deposit data received, send to assigned timeslot etc. pending HDLC packing data, thereby finish whole data handling procedure.

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