CN207965560U - A kind of circuit detected automatically suitable for CAN bus terminal resistance - Google Patents

Abstract

The utility model discloses a kind of circuits detected automatically suitable for CAN bus terminal resistance, including CAN chips, dpdt relay and CAN network node, the control coil both ends of dpdt relay are connected respectively to one end of GND and signal relay, another termination GND of signal relay, first movable contact of dpdt relay is connected to the first end of terminal resistance, first normally opened contact of dpdt relay is connected to GAD, first normally-closed contact of dpdt relay is connected to CAN chips, second movable contact of dpdt relay is connected to the second end of terminal resistance, second normally opened contact of dpdt relay connects GND by AD signal acquisition modules, second normally-closed contact of dpdt relay is connected to CAN chips；The both ends of terminal resistance are connected respectively to the both ends of CAN network node.The beneficial effects of the utility model：CAN network terminal resistance detection time and detection difficulty are effectively reduced, the reliability of CAN network communication is effectively improved.

Description

A kind of circuit detected automatically suitable for CAN bus terminal resistance

Technical field

The utility model is related to CAN bus detection fields, relate in particular to one kind and being suitable for CAN bus terminal resistance certainly The circuit of dynamic detection.

Background technology

In order to enhance the reliability of CAN bus communication, terminal coupling electricity will be usually added in two terminals of CAN bus network Resistance.In practical application, CAN bus network often has whether multiple nodes, each node have terminal resistance, be related to CAN bus Communication stability.

Habitually in the past we have confirmed that node whether has terminal resistance or whether CAN bus network terminal resistance is normal, usually adopt With the method for manual measurement, the method has the following problems：（1）When node is excessive, it is long to expend the time；（2）If CAN bus is whole When body harness, it is also necessary to plug connector or even broken loop wire beam measures；（3）It can not be to CAN network before each system operation Terminal resistance is detected automatically, it is difficult to ensure the reliability of CAN network communication.

In view of the problems of the above-mentioned prior art, a kind of circuit detected automatically suitable for CAN bus terminal resistance is just Seem there is an urgent need to.

Utility model content

For the problems in the relevant technologies, the utility model proposes one kind to detect automatically suitable for CAN bus terminal resistance Circuit.

To realize the above-mentioned technical purpose, the technical solution of the utility model is realized in：

A kind of circuit detected automatically suitable for CAN bus terminal resistance, including CAN chips, dpdt relay and CAN network node,

The control coil both ends of the dpdt relay are connected respectively to one end of GND and signal relay, described Another termination GND of signal relay, the first movable contact of the dpdt relay are connected to the first end of terminal resistance, First normally opened contact of the dpdt relay is connected to GAD, and the first normally-closed contact of the dpdt relay connects CAN chips are connected to, the second movable contact of the dpdt relay is connected to the second end of terminal resistance, the double-pole double throw Second normally opened contact of relay connects GND by AD signal acquisition modules, and the second of the dpdt relay is normally closed tactile Point is connected to CAN chips；

The both ends of the terminal resistance are connected respectively to the both ends of CAN network node.

Further, the terminal resistance includes terminal resistance I and terminal resistance II, and the of the dpdt relay One movable contact is connected to the first end of terminal resistance I, and the second movable contact of the dpdt relay is connected to terminal resistance I Second end, the both ends of the terminal resistance I are parallel with terminal resistance II.

Further, the CAN network node includes CAN network node one, CAN network node two and CAN network node N, the both ends of the terminal resistance I are connected respectively to the both ends of CAN network node one, and the two of the CAN network node one End is connected respectively to the both ends of CAN network node two, and the both ends of the CAN network node two are connected respectively to CAN network node n。

The beneficial effects of the utility model：Before CAN bus network is per task, CAN network terminal resistance detection is carried out, i.e., CAN network communication reliability can be effectively improved；CAN network terminal resistance detection time and detection difficulty can be effectively reduced, effectively Improve the reliability of CAN network communication.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Needed in attached drawing be briefly described, it should be apparent that, the accompanying drawings in the following description is only the utility model Some embodiments for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other attached drawings.

Fig. 1 is according to a kind of circuit detected automatically suitable for CAN bus terminal resistance described in the utility model embodiment Structure diagram.

In figure：

1, dpdt relay；2, signal relay；3, AD signal acquisition modules；4, terminal resistance I；5, terminal resistance Ⅱ；6, CAN chips；7, CAN network node one；8, CAN network node two；9, CAN network node n.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, the every other embodiment that those of ordinary skill in the art are obtained all belongs to In the range of the utility model protection.

As shown in Figure 1, a kind of circuit detected automatically suitable for CAN bus terminal resistance, including CAN chips 6, double-pole are double Relay 1 and CAN network node are thrown,

The control coil both ends of the dpdt relay 1 are connected respectively to one end of GND and signal relay 2, institute Another termination GND of signal relay 2 is stated, the first movable contact of the dpdt relay 1 is connected to the of terminal resistance First normally opened contact of one end, the dpdt relay 1 is connected to GAD, and the first of the dpdt relay 1 is normally closed For contact portion to CAN chips 6, the second movable contact of the dpdt relay 1 is connected to the second end of terminal resistance, described Second normally opened contact of dpdt relay 1 connects GND by AD signal acquisition modules 3, the dpdt relay 1 Second normally-closed contact is connected to CAN chips 6；

The both ends of the terminal resistance are connected respectively to the both ends of CAN network node.

The terminal resistance includes terminal resistance I 4 and terminal resistance II 5, and the first of the dpdt relay 1 is dynamic tactile Point is connected to the first end of terminal resistance I 4, and the second movable contact of the dpdt relay 1 is connected to terminal resistance I 4 The both ends of second end, the terminal resistance I 4 are parallel with terminal resistance II 5.

The CAN network node includes CAN network node 1, CAN network node 28 and CAN network node n9, described The both ends of terminal resistance I 4 are connected respectively to the both ends of CAN network node 1, the both ends point of the CAN network node 1 It is not connected to the both ends of CAN network node 28, the both ends of the CAN network node 28 are connected respectively to CAN network node n9.

Above-mentioned technical proposal is further understood for convenience, now its specifically used process is described in detail：

Dpdt relay 1 is controlled by microcontroller, under default conditions, CAN chips connect CAN bus, are positive normal open Letter state, when needing to judge whether CAN network terminal resistance is correct, dpdt relay 1 acts, by CAN network terminal Resistance is connected to pressure sampling circuit, and the default correct AD of microcontroller acquires signal, and terminal resistance is different, then can lead to AD Acquire that signal is different, by actual acquisition to voltage compared with correct voltage, you can whether judge CAN network terminal resistance Normally.

The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all in this practicality Within novel spirit and principle, any modification, equivalent replacement, improvement and so on should be included in the guarantor of the utility model Within the scope of shield.

Claims (3)

1. a kind of circuit detected automatically suitable for CAN bus terminal resistance, which is characterized in that including CAN chips（6）, double-pole Double-throw relay（1）With CAN network node,

The dpdt relay（1）Control coil both ends be connected respectively to GND and signal relay（2）One end, institute State signal relay（2）Another termination GND, the dpdt relay（1）The first movable contact be connected to terminal resistance First end, the dpdt relay（1）The first normally opened contact be connected to GAD, the dpdt relay（1）'s First normally-closed contact is connected to CAN chips（6）, the dpdt relay（1）The second movable contact be connected to terminal resistance Second end, the dpdt relay（1）The second normally opened contact pass through AD signal acquisition modules（3）GND is connected, it is described Dpdt relay（1）The second normally-closed contact be connected to CAN chips（6）；

The both ends of the terminal resistance are connected respectively to the both ends of CAN network node.

2. a kind of circuit detected automatically suitable for CAN bus terminal resistance according to claim 1, which is characterized in that The terminal resistance includes terminal resistance I（4）With terminal resistance II（5）, the dpdt relay（1）The first movable contact It is connected to terminal resistance I（4）First end, the dpdt relay（1）The second movable contact be connected to terminal resistance I （4）Second end, the terminal resistance I（4）Both ends be parallel with terminal resistance II（5）.

3. a kind of circuit detected automatically suitable for CAN bus terminal resistance according to claim 2, which is characterized in that The CAN network node includes CAN network node one（7）, CAN network node two（8）With CAN network node n（9）, the end Hold resistance I（4）Both ends be connected respectively to CAN network node one（7）Both ends, the CAN network node one（7）Both ends point It is not connected to CAN network node two（8）Both ends, the CAN network node two（8）Both ends be connected respectively to CAN network section Point n（9）.