CN203267810U - Electromobile controller - Google Patents

Electromobile controller Download PDF

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Publication number
CN203267810U
CN203267810U CN2013202480470U CN201320248047U CN203267810U CN 203267810 U CN203267810 U CN 203267810U CN 2013202480470 U CN2013202480470 U CN 2013202480470U CN 201320248047 U CN201320248047 U CN 201320248047U CN 203267810 U CN203267810 U CN 203267810U
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CN
China
Prior art keywords
module
major loop
switch
power
electronlmobil
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Withdrawn - After Issue
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CN2013202480470U
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Chinese (zh)
Inventor
颜先
王建
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CHANGZHOU MY CONTROLLER INTELLIGENT TECHNOLOGY Co Ltd
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CHANGZHOU MY CONTROLLER INTELLIGENT TECHNOLOGY Co Ltd
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T10/00Road transport of goods or passengers
    • Y02T10/60Other road transportation technologies with climate change mitigation effect
    • Y02T10/72Electric energy management in electromobility
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02TCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
    • Y02T90/00Enabling technologies or technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02T90/10Technologies relating to charging of electric vehicles
    • Y02T90/16Information or communication technologies improving the operation of electric vehicles

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  • Electric Propulsion And Braking For Vehicles (AREA)

Abstract

The utility model relates to an electromobile controller. An electromobile is provided with a charging loop and a major loop; the electromobile controller includes a microprocessor module, a CAN bus communication module and a power module, as well as a double-way driving module connected with the microprocessor module and used for driving a duplex winding motor; the microprocessor module has the emergency driving function when the electromobile is in failure, and controls the double-way driving module to run in a single-way driving mode or a double-way driving mode. The electromobile controller can be used for driving the duplex winding motor in the single-way driving mode or the double-way driving mode according to the working condition of automobiles, and has the emergency driving function when the electromobile is in failure; a charging loop electricity leakage detection module and a major loop electricity leakage detection module can be used for detecting whether the charging loop and the major loop leak electricity respectively, and timely transmit signals to the microprocessor module, and the microprocessor module is used for controlling and closing a charging loop electric switch and a major loop electric switch respectively; an overcurrent detection module is used for detecting whether the current is normal during the operation of the major loop, and transmitting signals to the microprocessor module.

Description

Electric vehicle controller
Technical field
The utility model relates to a kind of electric vehicle controller, and it can according to running conditions of vehicle, carry out single channel driving or two-way driving to double-winding motor; And when breaking down, electronlmobil has emergency driving function.
Background technology
At present, the application of electronlmobil is increasingly extensive, and existing electric vehicle controller can only be realized the simple functions such as motor-driven, speed governing, brake, under-voltage protection.There are many drawbacks in sort controller: 1, no storage battery reversal connection protection function, in case accumulator anode and cathode reversal connection when wiring is installed, the controller internal short-circuit, large electric current ramp metering device very easily burns controller, even causes fire.2, without creepage protection function, due to the electronlmobil power supply voltage greater than safety voltage 36V, if system externally electric leakage can cause that circuit is on fire, if human body contact also brings hidden danger to human-body safety.3, without emergency driving function, in a single day the vehicle electrical device breaks down, and controller stops drive motor, and vehicle can not be exercised like this, can't go-cart, and this brings infinite trouble to the user.Sort controller can not satisfy that the electronlmobil height is integrated, multi-functional, high reliability request.Therefore, demand urgently providing a kind of brand-new electric vehicle controller to overcome defects.
Summary of the invention
Technical problem to be solved in the utility model is the defective that overcomes prior art; a kind of electric vehicle controller is provided; it possesses working dc power both positive and negative polarity reversal connection protection function; in the time of can preventing from charging, High-current output damages the phenomenon of charger; possess simultaneously overvoltage, under-voltage protection function; and can carry out single channel driving or two-way driving to double-winding motor according to running conditions of vehicle, make electric automobile torque large.
in order to solve the problems of the technologies described above, the technical solution of the utility model is: a kind of electric vehicle controller, it is characterized in that: it comprises microprocessor module, the incoming signal acquisition module, the first power tube module, the second power tube module, voltage acquisition module, the major loop electronic switch, charge circuit electronic switch and be used for providing the power module of power supply to microprocessor module, be connected with respectively the first full-bridge driver module on described microprocessor module, the second full-bridge driver module, charge switch driver module and major loop switch drive module, the charge circuit of electronlmobil is mainly by electric car charger, the charge circuit electronic switch, working dc power is electrically connected and forms, the major loop of electronlmobil is mainly by the working dc power of electronlmobil, the major loop electronic switch, the first power tube module, the second power tube module is electrically connected and forms, described incoming signal acquisition module be used for gathering electronlmobil speed control switch, starting switch, reverse gear switch and BK Brake Switch the switching value signal and pass to microprocessor module, the base stage of described the first power tube module and the first full-bridge driver module are electrically connected, one winding of the double-winding motor of its emitter and electronlmobil is electrically connected, in its collecting electrode access major loop, the first power tube module is used for receiving the driving signal of the first full-bridge driver module and controls the operating state of double-winding motor, the base stage of described the second power tube module and the second full-bridge driver module are electrically connected, another winding of the double-winding motor of its emitter and electronlmobil is electrically connected, in its collecting electrode access major loop, the second power tube module is used for receiving the driving signal of the second full-bridge driver module and further controls the operating state of double-winding motor, described voltage acquisition module is used for respectively gathering the voltage data information of electric car charger one utmost point and gathers the voltage data information of electronlmobil working dc power one utmost point and they are passed to microprocessor module, described major loop electronic switch is used for receiving the driving signal of major loop switch drive module and controls the break-make of major loop, described charge circuit electronic switch is used for receiving the driving signal of charge switch driver module and controls the break-make of charge circuit, described microprocessor module is used for switching value signal that analyzing and processing incoming signal acquisition module transmits and export corresponding logical order signal and pass to the first full-bridge driver module and the second full-bridge driver module, described microprocessor module also is used for each voltage data information that the analyzing and processing voltage acquisition module transmits and export corresponding break-make command signal and pass to major loop switch drive module and charge switch driver module.
Further, also be connected with charge circuit detection of electrical leakage module on described microprocessor module, this charge circuit detection of electrical leakage module comprises the anodal current acquisition module of charging and charging cathodal current acquisition module; The anodal current acquisition module of charging is used for gathering the current data information of electric car charger positive pole and passing to microprocessor module; Charging cathodal current acquisition module is used for gathering the current data information of electric car charger negative pole and passing to microprocessor module; Described microprocessor module also is used for the current data information that the anodal current acquisition module of analyzing and processing charging and charging cathodal current acquisition module transmit, and exports corresponding break-make command signal and pass to the charge switch driver module; When the electric current difference of the negative pole of the positive pole of charger and charger during greater than setting value, microprocessor module output is corresponding turn-offs command signal and passes to the charge switch driver module and makes it disconnect the charge circuit electronic switch.
Further, also be connected with major loop detection of electrical leakage module on described microprocessor module, this major loop detection of electrical leakage module comprises the anodal current acquisition module of major loop and major loop cathodal current acquisition module; The anodal current acquisition module of major loop be used for gathering electronlmobil the working dc power positive pole current data information and pass to microprocessor module; Major loop cathodal current acquisition module be used for gathering electronlmobil the working dc power negative pole current data information and pass to microprocessor module; Described microprocessor module also is used for the current data information that the anodal current acquisition module of analyzing and processing major loop and major loop cathodal current acquisition module transmit, and exports corresponding break-make command signal and pass to the major loop switch drive module; When the positive pole of working dc power and cathodal current difference during greater than setting value, microprocessor module output is corresponding turn-offs command signal and passes to the major loop switch drive module and makes it disconnect the major loop electronic switch.
Further, also be connected with the over-current detection module on described microprocessor module, this over-current detection module be used for gathering the first power tube module collector terminal electric current and pass to microprocessor module, when microprocessor module judged current value greater than setting value, microprocessor module output shutoff command signal passes to the first full-bridge driver module and the second full-bridge driver module control double-winding motor stops action and/or major loop switch drive module cut-out major loop.
Further, also be connected with the CAN bus communication module on described microprocessor module, this CAN bus communication module is used for vehicular meter that the state parameter of the analyzing and processing of microprocessor module and failure message are passed to electronlmobil.
Further, be connected in parallel to the DC/DC conversion module on the major loop of described electronlmobil, this DC/DC conversion module is used for providing power supply to the load appliance of electronlmobil.
Further, described power module comprises power supply and is electrically connected the Voltage stabilizing module of microprocessor module, this power supply is pre-power supply source module and/or DC/DC conversion module, and power output end and the Voltage stabilizing module of pre-power supply source module and/or DC/DC conversion module are electrically connected.Pre-power supply source module does not provide working power by Voltage stabilizing module for microprocessor module etc. before major loop has conducting.
Further, microprocessor module judgement: export corresponding shutoff command signal and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding conducting command signal of output passes to charge switch driver module conducting charge circuit electronic switch when having charger voltage and working dc power voltage normal; Export corresponding shutoff command signal when working dc power voltage during greater than maximum set value or less than minimum setting value and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; When normal without charger voltage and working dc power voltage, when simultaneously the starting switch of electronlmobil is closed, export that corresponding conducting command signal passes to major loop switch drive module conducting major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; When normal without charger voltage and working dc power voltage, when simultaneously the starting switch of electronlmobil was closed, the corresponding command signal of turn-offing of output passed to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch.
Further, be connected with the Hall element of access electronlmobil double-winding motor on described microprocessor module, this Hall element is used for the tach signal of double-winding motor is passed to microprocessor module in real time.
The utility model also provides a kind of two control methods that drive of electric vehicle controller, when microprocessor module is judged electronlmobil and is just being started to walk according to the signal of starting switch and Hall element, microprocessor module output logic command signal makes the first full-bridge driver module and the conducting simultaneously of the second full-bridge driver module, the low speed high torque performance of performance double-winding motor; After detecting car speed when microprocessor module by Hall element and reaching certain value, microprocessor module determines according to the temperature of the first power tube module and the second power tube module the first power tube module or the output of the second power tube module drive double wrap line motor that an open temp is lower; Cut off corresponding the first full-bridge driver module or the second full-bridge driver module when the first power tube module wherein has one the road to break down with the second power tube module, open another road full-bridge driver module, guarantee that electronlmobil normally travels before maintenance; Unlatching the first full-bridge driver module and the second full-bridge driver module provide enough moments of torsion for electronlmobil when microprocessor module is checked through electronlmobil load or climbing; When microprocessor module detects fault, microprocessor module enters the emergency operating program automatically, control the first power tube module and control the second power model by the second full-bridge driver module by the first full-bridge driver module, reduce the rotating speed of double-winding motor, output state parameter and failure message pass to CAN bus communication module simultaneously.
After having adopted technique scheme, the utlity model has following beneficial effect:
1, has the working dc power reversal connection protection function; when the positive pole of working dc power and negative pole reversal connection; microprocessor module has extremely by the voltage that voltage acquisition module collects working dc power; the corresponding shutoff of output command signal passes to major loop switch drive module shutoff major loop electronic switch and passes to charge switch driver module shutoff charge circuit electronic switch with the corresponding shutoff of output command signal; major loop and charge circuit are not all worked, and the controller that has caused when having prevented unexpected working dc power reversal connection damages and fire occurs.
2, charger defencive function; during charging; microprocessor module has detected charger voltage and working dc power voltage by voltage acquisition module and has exported corresponding shutoff command signal when normal and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding conducting command signal of output passes to charge switch driver module conducting charge circuit electronic switch; only connect charge circuit; major loop is disconnected, and when having prevented charging, High-current output damages the phenomenon of charger.
3, working dc power overvoltage, under-voltage protection: export corresponding shutoff command signal when working dc power voltage during greater than maximum set value or less than minimum setting value and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; controller charge closing circuit and power circuit have prevented that over voltage or under-voltage from damaging the phenomenon of controller.
4, detection of electrical leakage: the positive pole and the cathodal current that gather charger, when the electric current difference of the negative pole of the positive pole of charger and charger during greater than setting value, the corresponding shutoff of microprocessor module output command signal passes to the charge switch driver module makes it disconnect the charge circuit electronic switch, export simultaneously leak current fault information to the CAN communication module, gather positive pole and the cathodal current of main circuit power, when the positive pole of working dc power and cathodal current difference during greater than setting value, the corresponding shutoff of microprocessor module output command signal passes to the major loop switch drive module makes it disconnect the major loop electronic switch, export simultaneously leak current fault information to the CAN communication module.
5, two driver outputs, operating condition according to electronlmobil, dynamic auto definite single driver output or two driver output, vehicle is enabled the single system driver output when flat road surface is travelled, vehicle adopts two driver outputs when the large load operations such as starting, loading and climbing, if wherein cut off this driver output during one tunnel driving malfunction, open another driver output, until trouble shooting.
When each driver module fault that 6, connects on the microprocessor device or speed-regulating part, brake part, motor Hall unit failure, this controller enters the emergency operating program automatically, reduce car speed, make vehicle can drive to repair shop, export simultaneously failure message and emergency information to the CAN communication module.
7, overcurrent protection, microprocessor module detects abnormal excess current (motor short circuit in winding in major loop, power tube module section inefficacy etc.) time, microprocessor module output shutoff command signal passes to the first full-bridge driver module and the second full-bridge driver module control double-winding motor stops action and output is turn-offed command signal to major loop switch drive module cut-out major loop, realize excess current dual-switch turn-off protection, or microprocessor module output is turn-offed, and command signal passes to the first full-bridge driver module and the second full-bridge driver module control double-winding motor stops action, or microprocessor module output is turn-offed command signal directly to major loop switch drive module cut-out major loop, realize excess current substance switch turn-off protection.
8, integrated DC/DC conversion modules, the power supply by facilities such as this controller output horn for vehicle, illuminations improves the vehicle integrated level.
9, integrated CAN communication, output system state parameter and failure message are to vehicular meter, for user's observation and trouble diagnosing in real time.
Description of drawings
Fig. 1 is the functional block diagram of electric vehicle controller of the present utility model.
The specific embodiment
Content of the present utility model is easier to be expressly understood in order to make, and the below is described in further detail the utility model according to specific embodiment also by reference to the accompanying drawings,
as shown in Figure 1, a kind of electric vehicle controller, it comprises microprocessor module, the incoming signal acquisition module, the first power tube module, the second power tube module, voltage acquisition module, the major loop electronic switch, charge circuit electronic switch and be used for providing the power module of power supply to microprocessor module, be connected with respectively the first full-bridge driver module on described microprocessor module, the second full-bridge driver module, charge switch driver module and major loop switch drive module, the charge circuit of electronlmobil is mainly by electric car charger, the charge circuit electronic switch, working dc power is electrically connected and forms, the major loop of electronlmobil is mainly by the working dc power of electronlmobil, the major loop electronic switch, the first power tube module, the second power tube module is electrically connected and forms, described incoming signal acquisition module be used for gathering electronlmobil speed control switch, starting switch, reverse gear switch and BK Brake Switch the switching value signal and pass to microprocessor module, the base stage of described the first power tube module and the first full-bridge driver module are electrically connected, one winding of the double-winding motor of its emitter and electronlmobil is electrically connected, in its collecting electrode access major loop, the first power tube module is used for receiving the driving signal of the first full-bridge driver module and controls the operating state of double-winding motor, the base stage of described the second power tube module and the second full-bridge driver module are electrically connected, another winding of the double-winding motor of its emitter and electronlmobil is electrically connected, in its collecting electrode access major loop, the second power tube module is used for receiving the driving signal of the second full-bridge driver module and further controls the operating state of double-winding motor, described voltage acquisition module is used for respectively gathering the voltage data information of electric car charger one utmost point and gathers the voltage data information of electronlmobil working dc power one utmost point and they are passed to microprocessor module, described major loop electronic switch is used for receiving the driving signal of major loop switch drive module and controls the break-make of major loop, described charge circuit electronic switch is used for receiving the driving signal of charge switch driver module and controls the break-make of charge circuit, described microprocessor module is used for switching value signal that analyzing and processing incoming signal acquisition module transmits and export corresponding logical order signal and pass to the first full-bridge driver module and the second full-bridge driver module, described microprocessor module also is used for each voltage data information that the analyzing and processing voltage acquisition module transmits and export corresponding break-make command signal and pass to major loop switch drive module and charge switch driver module.This controller has the working dc power reversal connection protection function; when the positive pole of working dc power and negative pole reversal connection; microprocessor module has extremely by the voltage that voltage acquisition module collects working dc power; the corresponding shutoff of output command signal passes to major loop switch drive module shutoff major loop electronic switch and passes to charge switch driver module shutoff charge circuit electronic switch with the corresponding shutoff of output command signal; major loop and charge circuit are not all worked, and the controller that has caused when having prevented unexpected working dc power reversal connection damages and fire occurs.The standby charger defencive function of this controling appliance; during charging; microprocessor module has detected charger voltage and working dc power voltage by voltage acquisition module and has exported corresponding shutoff command signal when normal and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding conducting command signal of output passes to charge switch driver module conducting charge circuit electronic switch; only connect charge circuit; major loop is disconnected, and when having prevented charging, High-current output damages the phenomenon of charger.The standby working dc power overvoltage of this controling appliance, under-voltage protection function: export corresponding shutoff command signal when working dc power voltage during greater than maximum set value or less than minimum setting value and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; controller charge closing circuit and power circuit have prevented that over voltage or under-voltage from damaging the phenomenon of controller.This controller makes electronlmobil possess two driver output functions, operating condition according to electronlmobil, dynamic auto definite single driver output or two driver output, vehicle is enabled the single system driver output when flat road surface is travelled, vehicle adopts two driver outputs when the large load operations such as starting, loading and climbing, if wherein cut off this driver output during one tunnel driving malfunction, open another driver output, until trouble shooting.
In order to make the standby charge circuit creepage protection function of this controling appliance, as shown in Figure 1, also be connected with charge circuit detection of electrical leakage module on microprocessor module, this charge circuit detection of electrical leakage module comprises the anodal current acquisition module of charging and charging cathodal current acquisition module; The anodal current acquisition module of charging is used for gathering the current data information of electric car charger positive pole and passing to microprocessor module; Charging cathodal current acquisition module is used for gathering the current data information of electric car charger negative pole and passing to microprocessor module; Described microprocessor module also is used for the current data information that the anodal current acquisition module of analyzing and processing charging and charging cathodal current acquisition module transmit, and exports corresponding break-make command signal and pass to the charge switch driver module; When the electric current difference of the negative pole of the positive pole of charger and charger during greater than setting value, microprocessor module output is corresponding turn-offs command signal and passes to the charge switch driver module and makes it disconnect the charge circuit electronic switch.
In order to make the standby major loop electric leakage of this controling appliance comprise function, as shown in Figure 1, also be connected with major loop detection of electrical leakage module on microprocessor module, this major loop detection of electrical leakage module comprises the anodal current acquisition module of major loop and major loop cathodal current acquisition module; The anodal current acquisition module of major loop be used for gathering electronlmobil the working dc power positive pole current data information and pass to microprocessor module; Major loop cathodal current acquisition module be used for gathering electronlmobil the working dc power negative pole current data information and pass to microprocessor module; Described microprocessor module also is used for the current data information that the anodal current acquisition module of analyzing and processing major loop and major loop cathodal current acquisition module transmit, and exports corresponding break-make command signal and pass to the major loop switch drive module; When the positive pole of working dc power and cathodal current difference during greater than setting value, microprocessor module output is corresponding turn-offs command signal and passes to the major loop switch drive module and makes it disconnect the major loop electronic switch.
In order to make the standby excess current protective function of this controling appliance; as shown in Figure 1; also be connected with the over-current detection module on microprocessor module; this over-current detection module be used for gathering the first power tube module collector terminal electric current and pass to microprocessor module; when microprocessor module judged current value greater than setting value, microprocessor module output shutoff command signal passes to the first full-bridge driver module and the second full-bridge driver module control double-winding motor stops action and/or major loop switch drive module cut-out major loop.
In order to make the standby CAN bus communication function of this controling appliance, as shown in Figure 1, also be connected with the CAN bus communication module on microprocessor module, this CAN bus communication module is used for vehicular meter that the state parameter of the analyzing and processing of microprocessor module and failure message are passed to electronlmobil.
In order to make this controller can be directly to low-voltage lighting even load electric power supply, as shown in Figure 1, be connected in parallel to the DC/DC conversion module on the major loop of electronlmobil, the mouth of this DC/DC conversion module is electrically connected another that receive working dc power after the lighting load even load equipment of electronlmobil and extremely goes up.
As shown in Figure 1, described power module comprises power supply and is electrically connected the Voltage stabilizing module of microprocessor module, this power supply is pre-power supply source module and/or DC/DC conversion module, the power output end of pre-power supply source module and/or DC/DC conversion module is electrically connected with Voltage stabilizing module, and the power supply source module does not provide working power by Voltage stabilizing module for microprocessor module etc. before major loop has conducting in advance.
Microprocessor module judgement: export corresponding shutoff command signal and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding conducting command signal of output passes to charge switch driver module conducting charge circuit electronic switch when having charger voltage and working dc power voltage normal; Export corresponding shutoff command signal when working dc power voltage during greater than maximum set value or less than minimum setting value and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; When normal without charger voltage and working dc power voltage, when simultaneously the starting switch of electronlmobil is closed, export that corresponding conducting command signal passes to major loop switch drive module conducting major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; When normal without charger voltage and working dc power voltage, when simultaneously the starting switch of electronlmobil was closed, the corresponding command signal of turn-offing of output passed to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch.
As shown in Figure 1, be connected with the Hall element of access electronlmobil double-winding motor on microprocessor module, this Hall element is used for the tach signal of double-winding motor is passed to microprocessor module in real time.
A kind of two control methods that drive of electric vehicle controller, when microprocessor module is judged electronlmobil and is just being started to walk according to the signal of starting switch and Hall element, microprocessor module output logic command signal makes the first full-bridge driver module and the conducting simultaneously of the second full-bridge driver module, the low speed high torque performance of performance double-winding motor; After detecting car speed when microprocessor module by Hall element and reaching certain value, microprocessor module determines according to the temperature of the first power tube module and the second power tube module the first power tube module or the output of the second power tube module drive double wrap line motor that an open temp is lower; Cut off corresponding the first full-bridge driver module or the second full-bridge driver module when the first power tube module wherein has one the road to break down with the second power tube module, open another road full-bridge driver module, guarantee that electronlmobil normally travels before maintenance; Unlatching the first full-bridge driver module and the second full-bridge driver module provide enough moments of torsion for electronlmobil when microprocessor module is checked through electronlmobil load or climbing; When microprocessor module detects fault, microprocessor module enters the emergency operating program automatically, control the first power tube module and control the second power model by the second full-bridge driver module by the first full-bridge driver module, reduce the rotating speed of double-winding motor, output state parameter and failure message pass to CAN bus communication module simultaneously.
Switch and passage when the charge circuit electronic switch is charging, the switch of working dc power and passage when the major loop electronic switch is motor-driven.Charge circuit electronic switch and major loop electronic switch mainly are comprised of two groups of back-to-back power tubes and peripheral circuit, and power tube can be metal-oxide-semiconductor or IGBT pipe, and charge switch driver module and major loop switch drive module can adopt isolation drive.
Pre-power supply source module provides the light current power supply for controller, and the DC/DC conversion module provides low potential source for facilities such as horn for vehicle, illuminations.Pre-power supply source module and DC/DC conversion module adopt Switching Power Supply, and the assurance system can adapt to the output voltage that wider input voltage again can stable output.DC/DC conversion module and pre-power supply source module are being powered to Voltage stabilizing module, both are relations in parallel, for Voltage stabilizing module, as long as DC/DC conversion module and pre-power supply source module wherein have one tunnel work, Voltage stabilizing module provides working power with regard to output voltage for microprocessor module etc.
The first power tube module and the second power tube module power tube used can be metal-oxide-semiconductor or IGBT pipe, and the first full-bridge driver module and the second full-bridge driver module can be that breakaway-element or the drive IC of bootstrap type forms or adopt the transformer isolation driving.
The anodal current acquisition module of charging in the detection of electrical leakage module, charging cathodal current acquisition module, the anodal current acquisition module of major loop and major loop cathodal current acquisition module can be Hall-type current sensor output comparison pattern or exciting coil pulse output comparison pattern.
The over-current detection module can be the output of Hall-type current sensor or resistance drop output mode.
Above-described specific embodiment; technical matters of the present utility model, technical scheme and beneficial effect are further described; institute is understood that; the above is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any modification of making, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. electric vehicle controller, it is characterized in that: it comprises microprocessor module, the incoming signal acquisition module, the first power tube module, the second power tube module, voltage acquisition module, the major loop electronic switch, charge circuit electronic switch and be used for providing the power module of power supply to microprocessor module, be connected with respectively the first full-bridge driver module on described microprocessor module, the second full-bridge driver module, charge switch driver module and major loop switch drive module, the charge circuit of electronlmobil is mainly by electric car charger, the charge circuit electronic switch, working dc power is electrically connected and forms, the major loop of electronlmobil is mainly by the working dc power of electronlmobil, the major loop electronic switch, the first power tube module, the second power tube module is electrically connected and forms,
Described incoming signal acquisition module be used for gathering electronlmobil speed control switch, starting switch, reverse gear switch and BK Brake Switch the switching value signal and pass to microprocessor module;
The base stage of described the first power tube module and the first full-bridge driver module are electrically connected, one winding of the double-winding motor of its emitter and electronlmobil is electrically connected, in its collecting electrode access major loop, the first power tube module is used for receiving the driving signal of the first full-bridge driver module and controls the operating state of double-winding motor;
The base stage of described the second power tube module and the second full-bridge driver module are electrically connected, another winding of the double-winding motor of its emitter and electronlmobil is electrically connected, in its collecting electrode access major loop, the second power tube module is used for receiving the driving signal of the second full-bridge driver module and further controls the operating state of double-winding motor;
Described voltage acquisition module is used for respectively gathering the voltage data information of electric car charger one utmost point and gathers the voltage data information of electronlmobil working dc power one utmost point and they are passed to microprocessor module;
Described major loop electronic switch is used for receiving the driving signal of major loop switch drive module and controls the break-make of major loop;
Described charge circuit electronic switch is used for receiving the driving signal of charge switch driver module and controls the break-make of charge circuit;
Described microprocessor module is used for switching value signal that analyzing and processing incoming signal acquisition module transmits and export corresponding logical order signal and pass to the first full-bridge driver module and the second full-bridge driver module; Described microprocessor module also is used for each voltage data information that the analyzing and processing voltage acquisition module transmits and export corresponding break-make command signal and pass to major loop switch drive module and charge switch driver module.
2. electric vehicle controller according to claim 1, it is characterized in that: also be connected with charge circuit detection of electrical leakage module on described microprocessor module, this charge circuit detection of electrical leakage module comprises the anodal current acquisition module of charging and charging cathodal current acquisition module; The anodal current acquisition module of charging is used for gathering the current data information of electric car charger positive pole and passing to microprocessor module; Charging cathodal current acquisition module is used for gathering the current data information of electric car charger negative pole and passing to microprocessor module; Described microprocessor module also is used for the current data information that the anodal current acquisition module of analyzing and processing charging and charging cathodal current acquisition module transmit, and exports corresponding break-make command signal and pass to the charge switch driver module.
3. electric vehicle controller according to claim 1 and 2, it is characterized in that: also be connected with major loop detection of electrical leakage module on described microprocessor module, this major loop detection of electrical leakage module comprises the anodal current acquisition module of major loop and major loop cathodal current acquisition module; The anodal current acquisition module of major loop be used for gathering electronlmobil the working dc power positive pole current data information and pass to microprocessor module; Major loop cathodal current acquisition module be used for gathering electronlmobil the working dc power negative pole current data information and pass to microprocessor module; Described microprocessor module also is used for the current data information that the anodal current acquisition module of analyzing and processing major loop and major loop cathodal current acquisition module transmit, and exports corresponding break-make command signal and pass to the major loop switch drive module.
4. electric vehicle controller according to claim 1, it is characterized in that: also be connected with the over-current detection module on described microprocessor module, this over-current detection module be used for gathering the first power tube module collector terminal electric current and pass to microprocessor module.
5. electric vehicle controller according to claim 1, it is characterized in that: also be connected with the CAN bus communication module on described microprocessor module, this CAN bus communication module is used for vehicular meter that the state parameter of the analyzing and processing of microprocessor module and failure message are passed to electronlmobil.
6. electric vehicle controller according to claim 1, is characterized in that: the DC/DC conversion module that is connected in parallel to provide power supply to the load appliance of electronlmobil on the major loop of described electronlmobil.
7. electric vehicle controller according to claim 6, it is characterized in that: described power module comprises power supply and is electrically connected the Voltage stabilizing module of microprocessor module, this power supply is pre-power supply source module and/or DC/DC conversion module, and power output end and the Voltage stabilizing module of pre-power supply source module and/or DC/DC conversion module are electrically connected.
8. electric vehicle controller according to claim 1 is characterized in that: the microprocessor module judgement: export corresponding shutoff command signal and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding conducting command signal of output passes to charge switch driver module conducting charge circuit electronic switch when having charger voltage and working dc power voltage normal; Export corresponding shutoff command signal when working dc power voltage during greater than maximum set value or less than minimum setting value and pass to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; When normal without charger voltage and working dc power voltage, when simultaneously the starting switch of electronlmobil is closed, export that corresponding conducting command signal passes to major loop switch drive module conducting major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch; When normal without charger voltage and working dc power voltage, when simultaneously the starting switch of electronlmobil was closed, the corresponding command signal of turn-offing of output passed to that the major loop switch drive module is turn-offed the major loop electronic switch and the corresponding command signal of turn-offing of output passes to the charge switch driver module and turn-offs the charge circuit electronic switch.
9. electric vehicle controller according to claim 1, it is characterized in that: be connected with the Hall element of access electronlmobil double-winding motor on described microprocessor module, this Hall element is used for the tach signal of double-winding motor is passed to microprocessor module in real time.
CN2013202480470U 2013-05-09 2013-05-09 Electromobile controller Withdrawn - After Issue CN203267810U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103303159A (en) * 2013-05-09 2013-09-18 常州迈控智能科技有限公司 Electric automobile controller and dual-driving control method thereof
CN109334756A (en) * 2018-09-19 2019-02-15 湖南沃森电气科技有限公司 A kind of power-assisted steering double drive control system and its control method

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103303159A (en) * 2013-05-09 2013-09-18 常州迈控智能科技有限公司 Electric automobile controller and dual-driving control method thereof
CN103303159B (en) * 2013-05-09 2015-07-29 常州迈控智能科技有限公司 Electric vehicle controller and Dual Drive control method thereof
CN109334756A (en) * 2018-09-19 2019-02-15 湖南沃森电气科技有限公司 A kind of power-assisted steering double drive control system and its control method

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