• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A method for monitoring the short-circuit switching device of a three-phase motor (3) for driving vehicles, which is fed from a DC voltage source (1) via a controlled converter (2), wherein the short circuit switching device (6) controlled by a control logic (6) ( 5) is connected to the inputs of the motor and the motor currents and / or motor voltages are measured, and with the aid of the controlled converter (2) generates during a test phase a predetermined, different from the voltage / current curves in operation test pattern and the motor (3) is fed, the short-circuit switching device is actuated to actuate the current and / or voltage curve is detected during opening and closing of short-circuit contacts during the test phase and based on the current and / or voltage distribution in the individual motor phases the correct opening / Closing the short-circuit contacts is detected and evaluated.
    公开号:AT512477A1
    申请号:T50023/2012
    申请日:2012-02-03
    公开日:2013-08-15
    发明作者:
    申请人:Fts Computertechnik Gmbh;
    IPC主号:
    专利说明:

    Λ
    1Ö 2012/50023 Ρ12465
    METHOD AND DEVICE FOR MONITORING THE SHORT SCI LINE DEVICE OF A THREE-PHASE MOTOR
    The invention relates to a method for monitoring the short circuit switching device of a three-phase motor for driving vehicles, which is supplied from a DC voltage source via a controlled inverter, wherein the controlled by a control logic short-circuit switching device is connected to the inputs of the motor and the motor currents and / or motor voltages are measured.
    Electric motors of various types - but especially permanent magnet-excited synchronous motors - need from a certain speed a "three-phase short circuit". - So the low-impedance connection of the three engine phases - to be switched off, otherwise they would produce an unwanted, strong braking torque. Short-circuit contactors used for this purpose, generally the short-circuit switching device, are thus a safety device which is triggered when a switch-off condition occurs and thus the safe condition of the three-phase motor by a "three-phase short circuit". (and thus almost torque-free rotation) brought about
    The monitoring of the short circuit switching device is when using the electric motor in a safety-relevant application to a special role, since the device that can bring about the safe state, namely the short-circuit contactors, must be checked at regular intervals for their effectiveness. These checks must be carried out at appropriate times, as they interrupt the normal operation of the electric motor, and they should be able to be carried out easily and reliably with existing equipment - ideally at power-up. The safety aspects apply in particular for use in electric and hybrid vehicles.
    It is an object of the invention to provide a method and associated apparatus which allows the monitoring of the short-circuit switching device for three-phase motors in such a way that the operation of a driven motor vehicle is not appreciably disturbed and the safety is in no way compromised.
    This object is achieved by a method of the type mentioned in the introduction, in which according to the invention, with the aid of the controlled converter during a test phase, a predetermined
    -2- P12465 generated by the voltage / current curves in operation different test pattern is generated and supplied to the motor, the short-circuit switching device is actuated to actuate the current and / or voltage curve is detected during opening and closing of short-circuit contacts during the test phase and based on the current and / or voltage distribution in the individual motor phases, the correct opening / closing of the short-circuit contacts is detected and evaluated.
    Thanks to the invention, short-circuit contactors in vehicles can be checked regularly and with simple, without existing means, without any apparent for the user impairment of driving behavior, for example, by the emergence of undesirable engine torque occurs or breaks would be required. The evaluation will generally include an indication to the driver and / or a storage and / or intervention in the driving management of the vehicle.
    An expedient variant of the invention provides that test patterns are generated and supplied to the motor with the aid of the controlled converter during a test phase, wherein only those power switches are activated which are required for the operation of two motor phases, wherein one phase remains de-energized and the Amperage is dimensioned by the remaining two phases during the test pattern so that the motor generates almost no torque, during the test pattern, the currents and / or voltages measured at the motor phases and the redistribution of currents and / or voltages at closing or open the short-circuit contacts are detected and evaluated.
    In an advantageous embodiment it can be provided that with the aid of the controlled converter during a test phase, test patterns are generated and supplied to the motor, wherein each of the motor phases is so slightly divergent Schaltmustem applied that defined, small voltage differences between the motor phases occur and the motor provides almost no torque and during the test pattern, the currents and / or voltages measured at the motor phases and the redistribution of currents and / or voltages when closing or opening the short-circuit contacts detected and evaluated.
    It is recommended that it be executed when the engine is at a standstill. -3- PI2465
    Another advantageous variant of the method provides, it is carried out with a rotating motor, but in a speed range in which no passive recuperation over the switching paths of the inverter tiberbrückende diodes occurs.
    In this case, it is recommended that during operation, however, at operating phases that do not require a driving / braking torque from the motor, the circuit breakers of the inverter be inactivated, which measured when temporarily closing the short-circuit contacts due to the currents occurring at the motor windings voltages and the correct opening / closing of the short-circuit contacts is detected and evaluated on the basis of the occurring currents and / or voltages in the individual motor phases.
    In a further expedient variant, it can be provided that test patterns are generated and supplied to the motor when the motor is rotating and the currents and / or voltages occurring during temporary closing of the short-circuit contacts are measured, and the correct opening / closing of the short-circuit contacts is detected on the basis of these measurements and evaluated.
    Particularly advantageous is a device for carrying out the method for monitoring the short circuit switching device of a three-phase motor for driving vehicles, which is fed from a DC voltage source via a controlled inverter, wherein the controlled by a control and monitoring unit short-circuit switching device with the inputs is connected to the motor and current and / or voltage sensors for measuring the motor currents and / or voltages are provided, which supply corresponding signals to the control and monitoring unit, which is adapted, on the one hand control signals to the short circuit switching device and on the other hand control signals to the To supply converters, as well as on the basis of the current and / or voltage distribution in the individual motor phases to detect the correct opening / closing of the short-circuit contacts and evaluate.
    The invention together with further advantages is explained in more detail below by way of example embodiments, which are illustrated in the drawing. In this show: -4- PI2465
    1 is a block diagram of an electric drive train in a motor vehicle,
    2 shows the timing of a first embodiment of the method according to the invention,
    3 the timing of a first embodiment of the method according to the invention in a detailed representation of the switch-on situation,
    4 shows a flow chart relating to the method according to the invention in its first embodiment in a switch-on situation,
    5 shows a further flow chart relating to the method according to the invention in its first embodiment in a switch-off situation,
    6 shows the time sequence of a second embodiment of the method according to the invention,
    7 shows the time sequence of a second embodiment of the method according to the invention in a detailed representation of the switch-on situation, P12465
    8 shows a flow chart relating to the method according to the invention in its second embodiment in a switch-on situation,
    9 shows a further flow chart relating to the method according to the invention in its second embodiment in a switch-off situation,
    10 shows the timing of a third embodiment of the method according to the invention,
    Reference is first made to Fig. 1, which shows a high-voltage battery 1, which is connected via a controlled inverter 2 to a three-phase motor, short motor 3, the motor drives, for example, a wheel 4 of the vehicle. It should be appreciated that the motor 3 generally serves not only as a drive motor, being fed by the battery 1 via the inverter 2, but also as a generator in braking operation of the vehicle, then charging the battery 1 via the inverter 2. The vehicle may be a pure electric vehicle or a hybrid vehicle, it may be an automobile, a motorcycle, but also a boat or aircraft. The three-phase motor can both directly drive or brake the drive wheels of the vehicle or act on an intermediate unit on the movement of the vehicle.
    To the power supply lines (phases U, V, W) of the motor 3, a short-circuit switching device 5 is connected, which has two contactors 5a, 5b and which is controlled by a control and monitoring unit 6. Current and / or voltage sensors 7 provide corresponding signals to the control logic 6, which in turn can supply control signals Sa, Sb to the two contactors and on the other control signals Sa to the inverter 2. Here, the entire control is summarized in a block, but it is clear in that the converter can also contain its own drive unit, to which a control and monitoring unit of the switching device 5 can then send signals.
    Whether one measures all the currents and voltages of the three-phase system at the three motor phases of the motor 3, is different from case to case, often with two current sensors Auslangen can be found, since in a three-phase system from the measurement of the currents in two conductors the Strem results in the third conductor.
    The contacts of the two contactors 5a, 5b are open when the control current is switched on, which allows normal motor or generator operation. When the control current ceases, the contacts in each contactor short every two phases of the electric motor. However, other electromechanical versions than the arrangement of two contactors are possible. Thus, for example-in a variant of the invention described below-a single driven contact bar could be provided for the short circuit of all three phases of the electric motor.
    Since a direct short circuit between two or three motor phases during normal operation of the inverter 2 powered by current motor 3 is not allowed and the windings located in the motor 3 in addition to an inductance also form a low-resistance connection between the motor phases, is a measurement for detecting whether the short-circuit switching device 5 is open or closed is not readily possible. Therefore, in the context of the invention, a method or its variants were created, which will be explained below.
    With the described device, a method for monitoring the short-circuit switching device can be carried out as follows, to which reference is also made to FIG. 2. At agreed operating times, e.g. immediately after switching on or as required by the control and monitoring unit 6, a test pattern is generated by the controlled by the control and monitoring unit 6 inverter 2, which of the six in the inverter power switches, which are not designated here, only those four are activated, which are needed to operate two phases. The one remaining phase, in Fig. 1, the " middle " Phase, which is connected to both contactors 5a, 5b, remains de-energized in this test pattern. The current through the remaining two phases should be so dimensioned during this test pattern that no torque is generated at the motor 3. This can be achieved, for example, by a rapid reversal of the current direction, as shown in FIG. 3, or by a correspondingly low direction-constant current flow. During this test pattern, the currents and voltages on the three -7- PI2465
    Motor phases measured by the current and / or voltage sensors 7 and corresponding signals are fed to the control and monitoring unit 6. This delektiert the redistribution of the currents when closing or opening each of a contactor 5a and 5b. If both contactors are open, the current distribution [+1; 0; -1] measured. Of course, the sum of the three currents always has to be zero according to Kirchhoff's rule. After closing one contactor, the size of the window changes to [(1-x); x; -1]. If the other contactor is closed (and the first open), [+1; -y; (Y-1)]. By comparing the current distributions before and after the contactor operation, the achievement of an allowable value range for x and y (e.g., 0.3 <x <0.7) can be checked. Both contactors are never closed simultaneously during this test pattern as this would trigger overcurrent detection in Inverter 2. In order not to unnecessarily increase the number of contactor cycles, a turn-on or turn-off sequence can also be introduced, which initially opens only one contactor at the beginning of each drive cycle, then activates the test pattern and then also opens the second contactor. After engine operation, the shutdown sequence is chosen so that ultimately both contactors have been tested for their ability to short circuit. Also, the order of driving cycle to Fahrzyldus be reversed.
    The method described above is also illustrated in the flow diagrams of FIGS. 4 and 5, FIG. 4 describing the logical sequence during the switch-on process and FIG. 5 executing the switch-off process.
    Now, a second embodiment of the invention will be explained with reference to Figs. 6 to 9, which may be useful in certain cases, for example, when using a contactor with a single shorting bar or if the current sensors between inverter 2 and short circuit switching device 5 - so elsewhere as shown in Fig. 1 - are. The test pattern that must be generated by the inverter in this variant, the normal operation is much more similar than in the aforementioned embodiment and uses all six located in the inverter 2 circuit breaker, but with a non-operating, high rotational frequency. -8- PI2465
    At agreed operating times (eg immediately after switching on) or as required by the control and monitoring unit 6, a test pattern is generated by the inverter 2, which acts on the three phases with a very similar switching pattern, so that only small but defined voltage differences between the phases occur , The timing is shown in Fig. 6 and 7, wherein Fig. 7 includes a further detail of the Einschal tvorgangs and the test pattern used. The voltage differences between the three phases are achieved by small (in Figure 7 exaggerated) driving time differences in the high frequency (typically 10 kHz) occurring switching operations of the circuit breaker. The current intensity during this test pattern should be such that on average no torque is generated at the motor - this is achieved by rapid changes in the direction of the (in itself small) voltage differences. During this test pattern, the currents and voltages at the three motor phases are measured by means of the current and / or voltage sensors 7, whereby the control and monitoring unit 6 redistributes the currents when closing or opening a contactor or both contactors 5a, 5b is detected. To avoid the unwanted overcurrent detection in the inverter, the Ansteuerdauerunterschiede between the phases may be low, which in turn causes only small voltage differences and also very small power flows through the motor. A defined test pattern (eg rotating voltage vector with defined direction of rotation and defined frequency - as shown in Fig. 7) can also be measured at low current and voltage amplitudes and the expected change in currents and voltages when closing or opening a contactor or both Sagittarius are detected. As already stated, in this method, a single (three-pole) contactor, which causes the three-phase short-circuit, can be used. The detection can be done via the current sensors alone, a three-phase voltage measurement alone or via a combined measurement. The exact position of the current sensors is not decisive for this test procedure. In order not to unnecessarily increase the number of contactor cycles, a turn-on or turn-off sequence can also be introduced, which initially opens only one contactor at the beginning of each drive cycle, then activates the test pattern and then also opens the second contactor. After engine operation, the shutdown sequence is chosen so that ultimately both contactors have been tested for their ability to short circuit. Also, the order of driving cycle to driving cycle can be reversed. However, if a single short-circuit switching device is used, which can bring about a three-phase short circuit (and thus contactor 5a and 5b can thus only be operated together), then this second embodiment of the inventive method can still be used to test the Short circuit switching device according to the flowchart shown in Fig. 8 and Fig. 9 are used, wherein Fig. 8 performs the power-up and Fig. 9 performs the shutdown.
    Finally, a third embodiment of the method according to the invention will be explained with reference to FIG.
    In those operating points where no driving torque is required by the electric motor (e.g., coasting), the circuit breakers in the inverter can all be disabled (&quot; pulse inhibit &quot;) at a suitable speed. This generates no torque and no current flow, but very well the typical voltage curve for the electric motor on the three phases ("Motor EMK"), whereby the amplitude and frequency of the voltage curve are speed-dependent. By closing the two short-circuit contactors, the voltage at the motor phases is abruptly lowered and currents occur at the motor phases, which are easily measurable. Also in this operating condition occurs at a suitable speed-no torque (or an acceptable low braking torque) on the motor shaft. The effect of the short circuit switching device is thus detectable with this embodiment of the method on the change of currents or voltages. The last-described variant of the method according to the invention can be used in particular in those systems in which such operating points are achieved with sufficient frequency, so that the test of the short-circuit switching device 5 can be carried out with sufficient frequency in operation. This third embodiment can also be used in combination with the first two embodiments. In particular, in a fourth variant, it can be provided that, when the engine is not rotating, the switches of the converter 2 are deactivated, but test patterns are generated and supplied to the motor. The short-circuit contacts are temporarily closed and again the voltages and / or currents are measured. Based on the occurring currents and / or voltages in the individual phases of the three-phase lines, the correct opening / closing of the short-circuit contacts is then detected and output. This method can be carried out in suitable speed ranges, which mostly depend on the respective engine.
    It should not be left unmentioned that the test patterns are not only used to test the short-circuiting device but also to determine the &quot; health &quot; the inverter can be used, so to check its correct function. Also calibrations, e.g. for determining different delay times in the power electronics of the inverter are possible, wherein the control and monitoring unit 6 transmits the measurement results in a suitable form to the inverter.
    It should again be emphasized that the described embodiments are only possible examples and other variants within the scope of the claims to the expert. In particular, more repetitions of the test patterns are possible, as well as pulse sequences deviating from the representations.
    Vienna, 3 February 2012
    权利要求:
    Claims (8)
    [1]


    1. A method for monitoring the short circuit switching device of a three-phase motor (3) for driving vehicles, which is supplied from a DC voltage source (1) via a controlled converter (2), the control logic (6 ) is connected to the inputs of the motor and the motor currents and / or motor voltages are measured, characterized in that with the aid of the controlled converter (2) during a test phase, a predetermined, of the voltage / current curves during operation generates different test pattern and the motor (3) is supplied, the short-circuit switching device is actuated to actuate the current and / or voltage curve is detected during opening and closing of short-circuit contacts during the test phase and based on the current and / or voltage distribution in the individual motor phases the correct opening / closing of the short contacts is recorded and evaluated.
    [2]
    2. The method according to claim 1, characterized in that generated by means of the controlled converter (2) during a test phase test pattern and the motor (3), wherein only those power switches are activated, which are required for the operation of two motor phases wherein one phase remains de-energized and the current strength through the remaining two phases during the test pattern is such that the motor (3) generates almost no torque, during the test pattern the currents and / or voltages measured at the motor phases and the redistribution the currents and / or voltages when closing or opening the short-circuit contacts is detected and evaluated.
    [3]
    3. The method according to claim 1, characterized in that generated by means of the controlled converter (2) during a test phase test pattern and the motor (3) are supplied, wherein each of the motor phases with so slightly different from each other applied -12- PI2465 Schaltmustem is that defined, small voltage differences between the motor phases occur and the motor supplies almost no torque and measured during the test pattern, the currents and / or voltages at the motor phases and the redistribution of currents and / or voltages at closing or opening the short-circuit contacts are detected and evaluated.
    [4]
    4. The method according to any one of claims 1 to 3, characterized in that it is carried out at standstill of the engine (3).
    [5]
    5. The method according to claim 1, characterized in that it is carried out with a rotating motor (3), but in a speed range in which no passive recuperation on the switching paths of the inverter bridging diodes occurs.
    [6]
    6. The method according to claim 5, characterized in that during operation, however, to operating phases that require no driving / braking torque from the motor side, the circuit breakers of the inverter are disabled, the temporary closing of the short-circuit contacts due to the voltages lying on the motor windings occurring currents are measured and based on the occurring currents and / or voltages in the individual motor phases of the three-phase lines, the correct opening / closing of the short-circuit contacts detected and output.
    [7]
    7. The method according to any one of claims 1 to 5, characterized in that when rotating, unloaded engine test pattern generated and supplied to the motor and the currents occurring during temporary closing of the short-circuit contacts and / or voltages are measured and on the basis of these measurements the correct open / Closing the short-circuit contacts is detected and output.
    [8]
    8. Apparatus for carrying out the method according to one of claims 1 to 7 for monitoring the short circuit switching device (5) of a three-phase motor (3) for driving vehicles, which, starting from a DC voltage source (1) via a controlled inverter (2) fed is, wherein the controlled by a control and monitoring unit (6) short circuit switching device is connected to the inputs of the motor and current and / or voltage sensors (7) are provided for measuring the motor currents and / or voltages, which signals corresponding to the Control and -13- PI2465 LJberwachungseinheit provide, which is adapted to one hand control signals (Sa, Sb) to the short-circuit switching device (5) and on the other hand to supply control signals (see below) to the inverter (2), and based on the current - And / or voltage distribution in the individual motor phases to detect the correct opening / closing of the short-circuit contacts and output. Vienna, 3 February 2012
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    同族专利:
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    US20150002187A1|2015-01-01|
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    WO2013113051A2|2013-08-08|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    EP3703243A4|2017-10-25|2021-06-30|Mitsuba Corporation|Device for detecting rotation direction and method for detecting rotation direction of motor, and motor control device|
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    CN109406997B|2018-11-30|2020-11-10|北京新能源汽车股份有限公司|Method and device for testing active short-circuit relay of motor and storage medium|
    法律状态:
    2018-11-15| PC| Change of the owner|Owner name: TTTECH COMPUTERTECHNIK AG, AT Effective date: 20180926 |
    2019-09-15| PC| Change of the owner|Owner name: TTTECH AUTO AG, AT Effective date: 20190718 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA50023/2012A|AT512477B1|2012-02-03|2012-02-03|METHOD AND DEVICE FOR MONITORING THE SHORT-CIRCUIT SWITCHING DEVICE OF A THREE-PHASE MOTOR|ATA50023/2012A| AT512477B1|2012-02-03|2012-02-03|METHOD AND DEVICE FOR MONITORING THE SHORT-CIRCUIT SWITCHING DEVICE OF A THREE-PHASE MOTOR|
    PCT/AT2013/050027| WO2013113051A2|2012-02-03|2013-01-30|Method and apparatus for monitoring the short-circuiting switching device of a three-phase motor|
    US14/374,850| US9329242B2|2012-02-03|2013-01-30|Method and apparatus for monitoring the short-circuiting switching device of a three-phase motor|
    EP13714180.0A| EP2810366B1|2012-02-03|2013-01-30|Method and apparatus for monitoring the short-circuiting switching device of a three-phase motor|
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