KR20020046506A - Can communication system having a outer terminating resistor - Google Patents

Abstract

PURPOSE: In a CAN(controller area network) communication system, two type terminating register is unified into an outer mounting terminating register to reduce manufacturing cost. CONSTITUTION: A controller area network communication system of an automobile having an outer mounting terminating register is characterized by an EMS(30) having an inner terminating register(TR1), an outer mounting terminating register(30) connected opposite to the EMS(30) by way of two can bus(B1, B2), and a plurality of controlling units connected with the EMS(30) and the outer mounting terminating register(40) by way of a plurality of a first wire(LI1, LI2, LI3, ...LIn) and a second wire(LO1, LO2, LO3, ...LOn). The controlling units are TCU(32), TCS(34), and multigauge(36).

Description

CAN COMMUNICATION SYSTEM HAVING A OUTER TERMINATING RESISTOR with Vehicle Terminating Register

The present invention relates to a can communication system of a vehicle provided with an external terminating register, and more particularly, to the dual investment of the development cost and specification management due to the unification of the dual termination terminator. The present invention relates to a can communication system of a vehicle provided with an external terminating resistor that can avoid a redundancy, reduce manufacturing costs, and can appropriately cope with an increase in a can system between control units in the future.

In general, CAN (Controller Area Network) has a number of features as a form of communication protocol made to be suitable for use in the harsh environmental conditions due to industrial environments and electromagnetic interference. That is, up to 30 control units can be connected and connected to each other. In addition, various information can be communicated up to 1Mbps in real time, and excellent noise immunity enables excellent communication stability and various ID classifications of about 2048. In addition, in the event of a communication error, the length of the communication allowable wire can be up to 40 m, and the user interface can be easily used by using a CAN chip.

1 shows a connection state of such a can. Terminating resistors 10 12 having a 120 kV resistance value TR are connected to both ends of the two buses B1 and B2 to prevent diffraction of the signal. In addition, the can buses B1 and B2 have 30 control units U1, U2, ... U30 via the first wires LI1, LI2, ... LI3 and the second wires LO1, LO2, ... LO3, respectively. Is connected.

Next, FIGS. 2A and 2B show examples of can communication applied to a vehicle, and FIG. 2A shows a case where three control units communicate with cans, and FIG. 2B shows a case where four control units communicate with cans.

First, referring to FIG. 2A, the EMS 20, the TCS 22, and the TCU 24 are connected in a can communication scheme. Among these, the EMS 20 and the TCS 22 are always provided with the terminator registers TR1 and TR2, and the TCU 24 may be provided with or without a register according to specifications. The TCU 24 is connected to CAN buses B1 and B2 connecting the EMS 20 and the TCS 22 via wires LI and LO.

Meanwhile, referring to FIG. 2B, the CAN buses B1 and B2 connecting the EMS 20 and the TCS 22 are each of two control units TCU and MG via wires LI1, LO1; LI2 and LO2. ), Four control units communicate at the same time. Even in this case, the terminating registers TR1 and TR2 are always provided in the EMS 20 and the TCS 22, and the TCU 24 and the multi-gauge (MG) 26 are provided with or according to specifications. You will not.

In the conventional can communication method having such a configuration, in the case of TCU and multi-gauge, the investment of duplication of development cost and increase of the test frequency due to the development of dualization, and the waste of time and human resources due to the specification management in the company or factory are caused. . In particular, since the application of can communication is expanding, when the can communication is applied between more control units in more vehicle types, the problem due to the development of this dualization will be intensified.

The present invention for solving such a problem is to unify the dualized specifications to avoid the overlapping investment of development costs and duplication of specification management due to the dual development to reduce the manufacturing cost and to properly respond to the can system between the control unit to be increased in the future. It is an object of the present invention to provide a can communication system of a vehicle having an external terminating register.

1 is a circuit diagram showing a general can communication system,

2A and 2B are circuit diagrams showing a conventional can communication system applied to a vehicle;

3 is a circuit diagram showing a can communication system applied to a vehicle according to the present invention;

4 is a perspective view showing an external terminating resistor employed in the present invention;

FIG. 5 is an internal circuit diagram of the register shown in FIG. 4; FIG.

[Explanation of symbols on the main parts of the drawings]

30: EMS 32, 34, 34, 38: control unit

40: External terminating register B1, B2: Canvas

The can communication system of a vehicle provided with an external terminating register of the present invention for achieving the above object is an external type which is connected to the EMS via an EMS having an internal terminating register and the EMS via two can buses. And a plurality of control units connected to the EMS and the external terminating register via a terminating register and a plurality of first and second wires.

Hereinafter, a can communication system of a vehicle provided with an external terminating register according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 3 to 5.

3 is a circuit diagram illustrating a can communication system applied to a vehicle according to the present invention. In an embodiment of the present invention, an external terminating register 40 is employed in a can communication system in order to solve a problem of increase in overlapping investment and development cost according to the conventional dualization. On the other hand, since the EMS 30 is commonly applied to all specifications, the internal terminating register TR1 is used without change. The resistance value TR1 of the EMS 30 has 120 kV.

The external terminating register 40 employed in the present invention is connected to the EMS 30 via two can buses B1 and B2. Further, a plurality of control units are connected to these input / output buses B1 and B2 via a plurality of first wires LI1, LI2, LI3, ... LIn and second wires LO1, LO2, LO3, ... LOn. have. Here, the control unit includes a TCU 32, TCS 34, multi-gauge 36, in addition to up to 30 compared to the control unit currently installed or provided for future automatic control of each part of the vehicle The control chinnet 38 can be connected.

As described above, in the can communication method, even if several control units are added up to 30 in the specification, the performance and capacity of the terminating register are not significantly affected.

4 is a perspective view showing an external terminating resistor employed in the present invention, and FIG. 5 is an internal circuit diagram of the resistor shown in FIG.

First, as shown in FIG. 4, the external terminating register 40 of the present invention includes a connection end 42 having an insertion hole 42a into which the input / output buses B1 and B2 are inserted.

Next, as shown in FIG. 5, the internal resistance value TR2 of the external terminating resistor 40 connected to the high-level and low-level input / output buses B1 and B2 is the same as that of a normal internal terminating resistor. It is set to 120 Hz.

According to the present invention described above, by unifying the specifications of the terminating resistor that has been dualized in the conventional can communication system with an external terminating resistor, it is manufactured by preventing the overlapping investment of development cost and duplication of specification management due to the dual development. There is an advantage in that the cost can be reduced and appropriately coped with the can system between the control units to be increased in the future.

Claims (3)

EMS 30 with internal terminating register TR1, An external terminating register 40 connected to the EMS 30 via two can buses B1 and B2; Connected to the EMS 30 and the external terminating register 40 via a plurality of first wires LI1, LI2, LI3, ... LIn and second wires LO1, LO2, LO3, ... LOn. A can communication system of a vehicle having an external terminating register, characterized in that it comprises a plurality of control units. The method of claim 1, The control unit is a can communication system of a vehicle having an external terminating register, characterized in that the TCU (32), TCS (34), multi-gauge (36). The method of claim 1, And an internal resistance value of the external terminating resistor (40) is set to 120 kW.