CN201813383U - Multifunction vehicle bus (MVB) gateway based on advanced RISC machine (ARM) 7 - Google Patents

Abstract

The utility model discloses a multifunction vehicle bus (MVB) gateway based on an advanced RISC machine (ARM) 7, which comprises an MVB protocol controller, an MVB bus transceiver, an ARM7 central controller, a DeviceNet bus protocol controller and a DeviceNet bus transceiver. The ARM7 central controller is respectively in bidirectional connection with the MVB protocol controller and the DeviceNet bus protocol controller, the MVB protocol controller is in bidirectional connection with the MVB bus transceiver, and the DeviceNet bus protocol controller is in bidirectional connection with the DeviceNet bus transceiver. The MVB gateway realizes data exchange between the MVB protocol controller and the DeviceNet protocol controller by the aid of the ARM7 central controller, and solves the problem of interconnection between a special MVB control network for locomotives and a widely used DeviceNet field bus of an industrial control network.

Description

A kind of MVB gateway based on ARM7

Technical field

The utility model relates to the DTU (Data Transfer unit) between a kind of heterogeneous networks bus, particularly a kind of MVB gateway based on ARM7.

Background technology

The DeviceNet fieldbus is world-class automation control and information solution provider---industrial control network technology of the optimum that U.S.'s Rockwell automation (Rockwell Automation) company the releases---bottom-layer network of NetLinx.That DeviceNet has is open, at a low price, reliably, advantage efficiently, be particularly suitable for the bottom control of the industry spot of high real-time requirement.DeviceNet has now classified international standard IEC62026-3 (2000-07) low voltage switchgear and control appliance-controller-equipment interface as, and is put into European standard EN50325.In addition, DeviceNet is actually the facility network standard in Asia and America.

In recent years, fast development along with railway systems, fieldbus is because its reliability height, cost is low, failure rate is low etc., and advantage makes it use more and more widely, network communication standard as the Chinese Railway rail vehicle, the TCN bus is occupied very big proportion in field of track traffic, especially in field of track traffic such as locomotive, motor-car, subways, the application of TCN bus is especially extensive, it comprises two kinds of fieldbus that are used for train-installed data communication: WTB bus and MVB bus, wherein MVB is responsible for the data communication of vehicle interior.

In the locomotive control network, the equipment that possesses the MVB communication function exists simultaneously with the equipment that possesses the DeviceNet communication function, if use the special-purpose Control Network of the locomotive of MVB communications protocol can be interconnected, have very important significance for exploitation, debugging and supervision tool based on the control system of MVB agreement with widely used industrial control network DeviceNet fieldbus.But there is not the ripe MVB-DeviceNet gateway of using in the existing equipment.

Summary of the invention

For solving the problems referred to above that prior art exists, the utility model will design a kind of MVB gateway based on ARM7, thereby has solved the interconnect problem between MVB private wore network network and widely used industrial control network DeviceNet fieldbus.

To achieve these goals, the technical solution of the utility model is as follows:

A kind of MVB gateway based on ARM7, comprise MVB bus protocol controller, MVB bus transceiver, ARM7 central controller, DeviceNet bus protocol controller, DeviceNet bus transceiver, described ARM7 central controller respectively with MVB bus protocol controller and two-way connection of DeviceNet bus protocol controller, described MVB bus protocol controller is connected with the MVB bus is two-way through the MVB bus transceiver, and described DeviceNet bus protocol controller is connected with the DeviceNet bus is two-way through the DeviceNet bus transceiver.

Compared with prior art, the utility model has been realized the exchanges data of MVB bus protocol controller and DeviceNet protocol controller by the ARM7 central controller, the MVB Control Network of locomotive special use and the interconnect problem of widely used industrial control network DeviceNet fieldbus have been solved, have modern design, characteristics such as reliable, flexible, be with a wide range of applications in industries such as rail vehicle and agriculture and forestry machinery and association area.

Description of drawings

The utility model has 2 accompanying drawings, wherein:

Fig. 1 is based on the structured flowchart of the MVB gateway of ARM7.

Fig. 2 is ARM7 central controller and peripheral interface circuit structured flowchart thereof.

Among the figure: 1, MVB bus protocol controller, 2, the MVB bus transceiver, 3, the ARM7 central controller, 4, DeviceNet bus protocol controller, 5, the DeviceNet bus transceiver.

Embodiment

Below in conjunction with accompanying drawing the utility model is described further.As shown in Figure 1, a kind of MVB gateway based on ARM7, comprise MVB bus protocol controller 1, MVB bus transceiver 2, ARM7 central controller 3, DeviceNet bus protocol controller 4, DeviceNet bus transceiver 5, described ARM7 central controller 3 respectively with MVB bus protocol controller 1 and 4 two-way connections of DeviceNet bus protocol controller, described MVB bus protocol controller 1 is connected with the MVB bus is two-way through MVB bus transceiver 2, and described DeviceNet bus protocol controller 4 is connected with the DeviceNet bus is two-way through DeviceNet bus transceiver 5.

Method of work of the present utility model comprises that the MVB bus data converts DeviceNet bus data method to and the DeviceNet bus data converts MVB bus data method to, specifically may further comprise the steps:

A, MVB bus data convert the DeviceNet bus data to:

A1, MVB bus transceiver 2 receive the data of MVB bus and send to MVB bus protocol controller 1;

A2, MVB bus protocol controller 1 receive the MVB Frame according to MVB bus communication agreement regulation;

A3, ARM7 central controller 3 read the MVB data of MVB bus protocol controller 1, after carrying out logical operation and handling, generate the DeviceNet data, write DeviceNet bus protocol controller 4;

A4, DeviceNet bus protocol controller 4 be according to DeviceNet bus communication agreement regulation, reads ARM7 central controller 3 and write data in the DeviceNet bus protocol controller 4, generates the DeviceNet Frame through coding;

A5, DeviceNet bus transceiver 5 receive the DeviceNet Frame of DeviceNet bus protocol controller 4 and send to the DeviceNet bus;

B, DeviceNet bus data convert the MVB bus data to:

B1, DeviceNet bus transceiver 5 receive the data of DeviceNet bus and send to DeviceNet bus protocol controller 4;

B2, DeviceNet bus protocol controller 4 receive the DeviceNet Frame according to DeviceNet bus communication agreement regulation;

B3, ARM7 central controller 3 read the DeviceNet data of DeviceNet bus protocol controller 4, after carrying out logical operation and handling, generate the MVB data, write MVB bus protocol controller 1;

B4, MVB bus protocol controller 1 be according to MVB bus communication agreement regulation, reads ARM7 central controller 3 and write data in the MVB bus protocol controller 1, generates the MVB Frame through coding;

B5, MVB bus transceiver 2 receive the MVB Frame of MVB bus protocol controller 1 and send to the MVB bus.

ARM7 central controller 3 described in the utility model, the exchanges data of responsible MVB bus protocol controller 1 and DeviceNet bus protocol controller 4 has the graphic programming interface, and the user uses the language compilation control logic that meets IEC61131-3.

Below in conjunction with Fig. 1-2 circuit of the present utility model and operation principle thereof are described further: circuit of the present utility model comprises MVB bus control circuit, DeviceNet bus control circuit, ARM7 central controller 3 and peripheral interface circuit thereof, and physical circuit is classified as follows:

As shown in Figure 1, the MVB bus control circuit is the major control circuit of MVB bus and ARM7 central controller 3 interfaces, mainly comprises MVB bus protocol controller 1, MVB bus transceiver 2 and ARM7 central controller 3 interface circuits.ARM7 central controller 3 is read and write by the bus of standard and is controlled the data that MVB bus protocol controller 1 sent or accepted the MVB bus, and MVB bus protocol controller 1 is responsible for supervision and management, the transmission of bus or is received data, coding or decoded data frame.MVB bus transceiver 2 be responsible for will transmitting-receiving data transaction become to meet the signal of telecommunication of MVB bus physical layer regulation, simultaneously the bus control circuit of MVB is isolated and protects.

As shown in Figure 1, the DeviceNet bus control circuit is the major control circuit of DeviceNet bus and ARM7 central controller 3 interfaces, mainly comprises DeviceNet bus protocol controller 4, DeviceNet bus transceiver 5 and ARM7 central controller 3 interface circuits.ARM7 central controller 3 is read and write by the bus of standard and is controlled the data that DeviceNet bus protocol controller 4 sent or accepted the DeviceNet bus, and DeviceNet bus protocol controller 4 is responsible for supervision and management, the transmission of bus or is received data, coding or decoded data frame.DeviceNet bus transceiver 5 be responsible for will transmitting-receiving data transaction become to meet the signal of telecommunication of DeviceNet bus physical layer regulation, simultaneously the bus control circuit of DeviceNet is isolated and protects.

As shown in Figure 2, ARM7 central controller 3 and peripheral interface circuit thereof have been realized the Central Control Function of gateway, mainly comprise ARM7 central controller 3, code memory, config memory, program storage.ARM7 central controller 3 has that speed is fast, volume is little, rich interface, low in energy consumption, the advantage that need not auxiliary heat dissipation equipment, main operation PLC interpreter and the application program of user be responsible for.Code memory is made up of non-volatile flash memory (FLASH), the control routine of permanent storage gateway.Config memory is made up of non-volatile flash memory (FLASH), permanent storage user's application data and bus configuration data.Program storage is made up of synchronous dynamic random access memory (SDRAM), has fast, the capacious advantage of speed, the Memory Allocation when being used for the code operation.The user can carry out writing and compiling of application program by the graphic programming instrument, be downloaded in the config memory by network interface after generating binary code file, the PLC interpreter that runs on ARM7 central controller 3 will load and carry out user application automatically, and bus data is carried out logical process.

Claims (1)

1. MVB gateway based on ARM7, it is characterized in that: comprise MVB bus protocol controller (1), MVB bus transceiver (2), ARM7 central controller (3), DeviceNet bus protocol controller (4), DeviceNet bus transceiver (5), described ARM7 central controller (3) respectively with MVB bus protocol controller (1) and two-way connection of DeviceNet bus protocol controller (4), described MVB bus protocol controller (1) is connected with the MVB bus is two-way through MVB bus transceiver (2), and described DeviceNet bus protocol controller (4) is connected with the DeviceNet bus is two-way through DeviceNet bus transceiver (5).

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