EP2171739B1 - Control apparatus for a switching device with a pull-in coil and/or a holding coil and method for controlling the current flowing through the coil - Google Patents
Control apparatus for a switching device with a pull-in coil and/or a holding coil and method for controlling the current flowing through the coil Download PDFInfo
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- EP2171739B1 EP2171739B1 EP08735197.9A EP08735197A EP2171739B1 EP 2171739 B1 EP2171739 B1 EP 2171739B1 EP 08735197 A EP08735197 A EP 08735197A EP 2171739 B1 EP2171739 B1 EP 2171739B1
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- coil
- control apparatus
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H47/00—Circuit arrangements not adapted to a particular application of the relay and designed to obtain desired operating characteristics or to provide energising current
- H01H47/22—Circuit arrangements not adapted to a particular application of the relay and designed to obtain desired operating characteristics or to provide energising current for supplying energising current for relay coil
- H01H47/32—Energising current supplied by semiconductor device
- H01H47/325—Energising current supplied by semiconductor device by switching regulator
Definitions
- the invention relates to a control device for a switching device, in particular for a voltage or current release, with a tightening and / or holding coil comprising a connected to the tightening and / or holding coil, pulse width-controlled switching device, and a control unit which is connected to the switching device and generates a control signal with adjustable pulse width, and a method for controlling the current flowing through the starting and / or holding coil current.
- a control device for a contactor drive comprising a, connected in series with a drive coil, pulse width controlled electronic switching device, and a control circuit, which is connected on the output side to the switching device includes.
- the contactor drive has two active switching states, namely tightening and holding the coil.
- two characteristic value tables with setpoint values are stored in the control circuit.
- two circuits are used for determining the instantaneous drive coil voltage for the two different switching states. The two measured values for the drive coil voltage are transferred to the control circuit.
- the control circuit has two signal inputs with upstream analog-to-digital converters for converting the signals.
- EP 0 789 378 A1 discloses a control device for a contactor drive, which consists of a series circuit of a drive coil, a switching transistor and a measuring resistor for supplying a measured value from the coil current. The measured value is fed to a control circuit, which determines a control signal for the switching transistor on the basis of the measured value, the input voltage of the control device and the switching state of the contactor drive.
- the determination of a coil current is metrologically complex, and the control of the current flowing through the coil is time consuming.
- a circuit arrangement for driving a relay is described.
- a relay winding is connected in series with a supply voltage source and a switching transistor.
- a supply voltage is applied to an input of a microprocessor control.
- the microprocessor controller includes an analog-to-digital converter that converts the supply voltage into a pulse width modulated signal that is applied to the base of the switching transistor.
- the invention is therefore based on the object to provide a comparison with the prior art simplified control device for a switching device, in particular for a voltage or current release, with a tightening and / or holding coil, the current through the tightening and / or holding coil of the Switching device keeps approximately constant, without characteristic tables must be stored in a control unit.
- control unit determines the pulse width of the control signal in response to the input voltage signal of the control unit so that the control device keeps the current through the tightening and / or holding coil of the switching device approximately constant.
- the object is further achieved by a method for controlling the current flowing through a starting and / or holding coil of a switching device in that the input voltage of the switching device is determined and a pulse width modulation signal for driving a switching device is determined as a function of a predefinable voltage setpoint of the coil voltage, that the switching device keeps the current through the tightening and / or holding coil of the switching device approximately constant.
- the control device thus holds by means of a voltage measurement, the current through the switching device approximately constant.
- a setpoint value for the voltage applied to the coil of the switching device can be specified to the control device as a function of the type of switching device. If the switching device has a pull-in and / or holding coil as the voltage or current release, and if the input voltage of the control device is a DC voltage or an AC voltage, then the current through the switching device is regulated to an approximately constant value. This is achieved by an approximately constant coil voltage and proves to be very advantageous because of the lower circuit complexity compared to a current measurement for adjusting a constant coil current.
- the control device regulates the voltage across the coil of the switching device so that it corresponds to the predetermined coil nominal voltage regardless of the switching state, tightening or holding the coil, the switching device.
- the control signal with adjustable pulse width for the switching device is generated by a control unit.
- the control unit is input side, e.g. connected to a voltmeter for detecting the level of the input voltage signal, which transmits a current input voltage signal to the control unit.
- the control unit determines a current control signal with a current pulse width, so that the switching device keeps the coil voltage at the coil of the switching device approximately constant.
- control device regardless of the switching state of the switching device (tightening operation or holding operation), the voltage across the or the current through the switching device constant. A complex measurement of the current flowing through the switching device is thereby avoided.
- the coil voltage currently applied to the switching device is advantageously determined.
- at least one scanning device is provided for scanning the respectively currently applied input voltage.
- this scanning device which may be part of the voltmeter, the applied input voltage is sampled at predetermined times or possibly continuously. The one from the voltmeter The determined input voltage value is then multiplied by the quotient of the duration of the application of a voltage signal to the control unit (switch-on time) and the period duration of the pulse-width-modulated control signal.
- the coil voltage value obtained is advantageously compared with a predefinable coil voltage setpoint, and from this a new switch-on time for the pulse width modulation is determined.
- the pulse width-controlled switching device comprises a switching transistor.
- the switching transistor is a field-effect transistor, in particular a self-blocking n-channel field-effect transistor.
- An advantage of the use of such a field effect transistor is that it can be driven by a voltage, in this case directly via the voltage output by the control unit.
- the control signal with adjustable pulse width for the switching device can be generated by a pulse generator.
- the control unit transmits to the pulse generator the determined current pulse width of the control signal.
- the pulse generator may be provided separately from the control unit, thereby reducing the complexity of the control unit.
- control unit can directly generate the control signal with adjustable pulse width itself. This avoids the provision of a separate pulse generator.
- the control unit of the control device advantageously has at least one data processing unit for processing data, whereby the control unit can quickly and efficiently acquire and process the data for determining the respectively current pulse width of the control signal.
- the data processing unit comprises a microcontroller.
- Such a microcontroller is inexpensive and can be easily adapted to a particular field of application.
- a control unit has a low impedance, while a voltmeter has a high impedance.
- the control unit comprises an impedance converter for matching the impedance of the high-impedance voltmeter to the low-impedance of the control unit.
- Such an impedance converter advantageously comprises at least one operational amplifier, since this is inexpensive and versatile. Furthermore, an operational amplifier over the discrete circuit technology has the advantage that a stabilization of the operating point and a compensation of the temperature behavior is not necessary.
- the data processing unit generally operates internally with digital signals.
- An analog signal applied on the input side here analog measuring signal of the voltmeter for determining the input voltage signal of the control unit, should therefore be converted.
- the data processing unit comprises an analog-to-digital converter, which converts the analog signals into digital signals for further processing in the data processing unit.
- the switching device comprises a coil, namely the tightening and / or holding coil for actuating the voltage and / or current release.
- a coil namely the tightening and / or holding coil for actuating the voltage and / or current release.
- the control device has on the input side a rectifier circuit for rectifying an AC voltage applied to the input of the control device.
- the input voltage signal of the control device can comprise, in addition to a DC component, also AC components that can be filtered out by an advantageously provided filter circuit.
- a Such filter circuit may be provided on the input side of the control device.
- control device Depending on the field of application of the control device, alternative embodiments of the control device are possible. For example, it is advantageous if the method for controlling is continuously feasible if the input voltage of the control unit is subject to great fluctuations. In other circumstances, however, it may also be expedient that the method for controlling may be carried out (at random) at certain adjustable times, for example when it is foreseeable that the input voltage will only change at certain points in time. For detecting such a change, performing the method after the input voltage change is provided. The accuracy with which the control device keeps the current through a switching device constant may depend on the frequency of the control operations.
- control device In order for the control device to be used as flexibly as possible, it proves to be advantageous if, in addition to the continuous and random control, the control can still be carried out intermittently, i. the control is performed regularly at the same time interval, wherein the time between two control operations is adjustable.
- the time between two control operations is not greater than 150 ⁇ s, and preferably not greater than 70 ⁇ s is.
- FIG. 1 a control device 1 according to the invention for a switching device is shown.
- the control device 1 keeps the current through a tightening or holding coil 2 for actuating a voltage or current release of the switching device approximately constant.
- the voltage applied to the tightening / holding coil 2 is measured.
- the current flowing through the pull-in / hold coil 2 is also kept approximately constant.
- a switching device 3 is connected to the tightening / holding coil 2.
- the switching device is an n-channel field-effect transistor which is connected on the drain side to the pull-in / hold coil 2 and to the control unit 4 on the gate side.
- the switching device 3 is controlled via a control signal with adjustable Pulsbrejte. Depending on the pulse width of the control signal, the switching device 3 controls the voltage applied to the pull-in / hold coil 2 of the switching device.
- the control signal with adjustable pulse width is generated by a control unit 4.
- the control unit 4 compares the calculated coil voltage U Sp currently applied to the tightening / holding coil 2 with a coil voltage setpoint U Sp, soll stored in the control unit 4 and changes as a function of the comparison value the pulse width of the control signal, so that the switching device 3, the coil voltage U sp at the tightening / holding coil 2 holds approximately constant.
- the control unit 4 needs the input voltage U presently applied to the control device 1.
- the input voltage U is made available to the control unit 4 via a voltmeter 5, whereby a sampling device 6 can be provided for sampling the input voltage U. ,
- a voltage applied to the input of the control device 1 AC voltage is converted by a rectifier circuit or filter circuit 7 into a DC voltage, wherein a conversion into a pulsating DC voltage is sufficient.
- the DC voltage is applied to the scanning device 6 and the coil 2.
- FIG. 2 represents a circuit diagram of in FIG. 1
- the control unit 4 comprises a microcontroller 8 and an operational amplifier 9.
- the control unit 4 receives from the voltmeter 5, the instantaneous input voltage U of the control device 1, wherein the voltmeter 5 usually has a high impedance, while the microcontroller 8 has a low impedance. If the operational amplifier 9 did not adapt the impedances to each other, the low-impedance impedance of the control unit would heavily load the high-impedance of the voltmeter, which would significantly reduce the accuracy of the voltmeter 5.
- the value of the input voltage U of the control device 1 determined by the voltmeter 5 is an analogue measured value.
- an analog / digital converter A1 is provided at the input of the microcontroller 8.
- the microcontroller 8 generates a new control signal with an adapted pulse width.
- FIG. 3 shows a corresponding flowchart of this control process and FIG. 4 shows a voltage / time diagram for the control signal with adjustable pulse width.
- the voltage meter 5 is used to determine the input voltage U currently applied to the control device 1 or to sample it from the scanning device 6 and to transfer it to the control unit 4.
- the coil voltage U Sp currently applied to the tightening / holding coil 2 is calculated.
- the input voltage value U from step 10 is multiplied by the time t On , where t On corresponds to the pulse width of the control signal.
- this value is divided by the period t PWM of the control signal.
- the result of the calculation of the coil voltage U Sp in FIG. 4 represented by a dashed line and made recognizable at the voltage axis by U Sp .
- the coil voltage is U Sp with the predetermined coil voltage desired value U Sp should compared. This is done in a controller (see FIG. 3 ). Depending on the comparison value, the controller determines a new pulse width PWM for the control signal of the switching device 3 so that the coil voltage U Sp applied to the pull-in / hold coil 2 is adjusted to the coil voltage setpoint U Sp, soll .
- control signal is generated with the new pulse width PWM and forwarded to the switching device 3, as in FIG. 1 indicated.
- control devices for a switching device with a Tightening and / or holding coil are still numerous more possible, in each of which an adjustable pulse width of a control signal in response to a detectable input voltage of the control device is set so that the voltage across the tightening and / or holding coil and thus the current flowing through them is kept approximately constant.
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Description
Die Erfindung betrifft eine Steuerungsvorrichtung für ein Schaltgerät, insbesondere für einen Spannungs- oder Stromauslöser, mit einer Anzugs- und/oder Haltespule umfassend eine mit der Anzugs- und/oder Haltespule verbundene, pulsbreitengesteuerte Schaltvorrichtung, und eine Steuereinheit, die mit der Schaltvorrichtung verbunden ist und ein Steuersignal mit einstellbarer Pulsbreite erzeugt, sowie ein Verfahren zum Steuern des durch die Anzugs- und/oder Haltespule fließenden Stroms.The invention relates to a control device for a switching device, in particular for a voltage or current release, with a tightening and / or holding coil comprising a connected to the tightening and / or holding coil, pulse width-controlled switching device, and a control unit which is connected to the switching device and generates a control signal with adjustable pulse width, and a method for controlling the current flowing through the starting and / or holding coil current.
Aus der
In der
Die Bestimmung eines Spulenstroms ist messtechnisch aufwändig, und die Regelung des durch die Spule fließenden Stromes ist zeitaufwändig.The determination of a coil current is metrologically complex, and the control of the current flowing through the coil is time consuming.
In Dokument
Der Erfindung liegt daher die Aufgabe zugrunde, eine gegenüber dem Stand der Technik vereinfachte Steuerungsvorrichtung für ein Schaltgerät, insbesondere für einen Spannungs- oder Stromauslöser, mit einer Anzugs- und/oder Haltespule bereitzustellen, die den Strom durch die Anzugs- und/oder Haltespule des Schaltgeräts annähernd konstant hält, ohne dass Kennwerttabellen in einer Steuereinheit hinterlegt werden müssen.The invention is therefore based on the object to provide a comparison with the prior art simplified control device for a switching device, in particular for a voltage or current release, with a tightening and / or holding coil, the current through the tightening and / or holding coil of the Switching device keeps approximately constant, without characteristic tables must be stored in a control unit.
Die Aufgabe wird durch eine Steuerungsvorrichtung gemäß Anspruch 1 und durch ein Schaltgerät gemäß Anspruch 17 gelöst. Weiterbildungen der Erfindung sind in den abhängigen Ansprüchen definiert.The object is achieved by a control device according to
Dabei bestimmt die Steuereinheit die Pulsbreite des Steuersignals in Abhängigkeit von dem Eingangsspannungssignal der Steuereinheit so, dass die Steuerungsvorrichtung den Strom durch die Anzugs- und/oder Haltespule des Schaltgeräts annähernd konstant hält.In this case, the control unit determines the pulse width of the control signal in response to the input voltage signal of the control unit so that the control device keeps the current through the tightening and / or holding coil of the switching device approximately constant.
Die Aufgabe wird weiter durch ein Verfahren zum Steuern des durch eine Anzugs- und/oder Haltespule eines Schaltgeräts fließenden Stroms dadurch gelöst, dass die Eingangsspannung des Schaltgeräts ermittelt und in Abhängigkeit von einem vorgebbaren Spannungssollwert der Spulenspannung ein Pulsweitenmodulationssignal zum Ansteuern einer Schaltvorrichtung so bestimmt wird, dass die Schaltvorrichtung den Strom durch die Anzugs- und/oder Haltespule des Schaltgeräts annähernd konstant hält.The object is further achieved by a method for controlling the current flowing through a starting and / or holding coil of a switching device in that the input voltage of the switching device is determined and a pulse width modulation signal for driving a switching device is determined as a function of a predefinable voltage setpoint of the coil voltage, that the switching device keeps the current through the tightening and / or holding coil of the switching device approximately constant.
Die erfindungsgemäße Steuerungsvorrichtung hält somit mittels einer Spannungsmessung den Strom durch das Schaltgerät annähernd konstant. Ein Sollwert für die an der Spule des Schaltgeräts anliegende Spannung kann der Steuerungsvorrichtung in Abhängigkeit von der Art des Schaltgeräts vorgegeben werden. Weist das Schaltgerät als Spannungs- oder Stromauslöser eine Anzugs- und/oder Haltespule auf und ist die Eingangsspannung der Steuerungsvorrichtung eine Gleichspannung oder eine Wechselspannung, so wird der Strom durch das Schaltgerät auf einen annähernd konstanten Wert eingeregelt. Dies wird durch eine annähernd konstante Spulenspannung erreicht und erweist sich aufgrund des geringeren Schaltungsaufwands im Vergleich zu einer Strommessung zum Einregeln eines konstanten Spulenstroms als sehr vorteilhaft.The control device according to the invention thus holds by means of a voltage measurement, the current through the switching device approximately constant. A setpoint value for the voltage applied to the coil of the switching device can be specified to the control device as a function of the type of switching device. If the switching device has a pull-in and / or holding coil as the voltage or current release, and if the input voltage of the control device is a DC voltage or an AC voltage, then the current through the switching device is regulated to an approximately constant value. This is achieved by an approximately constant coil voltage and proves to be very advantageous because of the lower circuit complexity compared to a current measurement for adjusting a constant coil current.
Die Steuerungsvorrichtung regelt die Spannung an der Spule des Schaltgeräts so, dass sie unabhängig vom Schaltzustand, Anziehen oder Halten der Spule, des Schaltgeräts der vorgegebenen Spulensollspannung entspricht.The control device regulates the voltage across the coil of the switching device so that it corresponds to the predetermined coil nominal voltage regardless of the switching state, tightening or holding the coil, the switching device.
Das Steuersignal mit regelbarer Pulsbreite für die Schaltvorrichtung wird von einer Steuereinheit erzeugt. Die Steuereinheit ist eingangsseitig z.B. mit einem Spannungsmesser zum Erfassen der Höhe des Eingangsspannungssignals verbunden, der der Steuereinheit ein aktuelles Eingangsspannungssignal übermittelt. In Abhängigkeit von dem übermittelten Eingangsspannungssignal ermittelt die Steuereinheit ein aktuelles Steuersignal mit einer aktuellen Pulsbreite, so dass die Schaltvorrichtung die Spulenspannung an der Spule des Schaltgeräts annähernd konstant hält.The control signal with adjustable pulse width for the switching device is generated by a control unit. The control unit is input side, e.g. connected to a voltmeter for detecting the level of the input voltage signal, which transmits a current input voltage signal to the control unit. In response to the transmitted input voltage signal, the control unit determines a current control signal with a current pulse width, so that the switching device keeps the coil voltage at the coil of the switching device approximately constant.
Vorteilhaft hält die Steuerungsvorrichtung unabhängig von dem Schaltzustand des Schaltgeräts (Anzugsvorgang oder Haltebetrieb) die Spannung an dem bzw. den Strom durch das Schaltgerät konstant. Eine aufwendige Messung des Stroms, der durch das Schaltgerät fließt, wird dadurch vermieden.Advantageously, the control device, regardless of the switching state of the switching device (tightening operation or holding operation), the voltage across the or the current through the switching device constant. A complex measurement of the current flowing through the switching device is thereby avoided.
Damit die Steuerungsvorrichtung den durch die Anzugs- und/oder Haltespule des Schaltgeräts fließenden Strom konstant halten kann, wird vorteilhaft die aktuell an dem Schaltgerät anliegende Spulenspannung ermittelt. Vorteilhaft ist zumindest eine Abtasteinrichtung zum Abtasten der jeweils aktuell anliegenden Eingangsspannung vorgesehen. Mittels dieser Abtasteinrichtung, die Teil des Spannungsmessers sein kann, wird die anliegende Eingangsspannung zu vorbestimmbaren Zeitpunkten oder ggf. kontinuierlich abgetastet. Der von dem Spannungsmesser ermittelte Eingangsspannungswert wird dann mit dem Quotienten aus der Dauer des Anliegens eines Spannungssignals an der Steuereinheit (Einschaltzeit) und der Periodendauer des pulsweitenmodulierten Steuersignals multipliziert. Der erhaltene Spulenspannungswert wird vorteilhaft mit einem vorgebbaren Spulenspannungssollwert verglichen und hieraus eine neue Einschaltzeit für die Pulsweitenmodulation ermittelt.So that the control device can keep constant the current flowing through the starting and / or holding coil of the switching device, the coil voltage currently applied to the switching device is advantageously determined. Advantageously, at least one scanning device is provided for scanning the respectively currently applied input voltage. By means of this scanning device, which may be part of the voltmeter, the applied input voltage is sampled at predetermined times or possibly continuously. The one from the voltmeter The determined input voltage value is then multiplied by the quotient of the duration of the application of a voltage signal to the control unit (switch-on time) and the period duration of the pulse-width-modulated control signal. The coil voltage value obtained is advantageously compared with a predefinable coil voltage setpoint, and from this a new switch-on time for the pulse width modulation is determined.
Vorteilhaft umfasst die pulsbreitengesteuerte Schaltvorrichtung einen Schalttransistor. In einer vorteilhaften Ausführungsform handelt es sich bei dem Schalttransistor um einen Feldeffekttransistor, insbesondere einen selbstsperrenden n-Kanal-Feldeffekttransistor. Vorteilhaft an dem Einsatz eines solchen Feldeffekttransistors ist, dass er über eine Spannung angesteuert werden kann, in diesem Fall direkt über die von der Steuereinheit ausgegebene Spannung.Advantageously, the pulse width-controlled switching device comprises a switching transistor. In an advantageous embodiment, the switching transistor is a field-effect transistor, in particular a self-blocking n-channel field-effect transistor. An advantage of the use of such a field effect transistor is that it can be driven by a voltage, in this case directly via the voltage output by the control unit.
Das Steuersignal mit regelbarer Pulsbreite für die Schaltvorrichtung kann von einem Pulsgenerator erzeugt werden. Hierbei übermittelt die Steuereinheit dem Pulsgenerator die ermittelte aktuelle Pulsbreite des Steuersignals. Der Pulsgenerator kann getrennt von der Steuereinheit vorgesehen werden, wodurch die Komplexität der Steuereinheit reduziert wird.The control signal with adjustable pulse width for the switching device can be generated by a pulse generator. In this case, the control unit transmits to the pulse generator the determined current pulse width of the control signal. The pulse generator may be provided separately from the control unit, thereby reducing the complexity of the control unit.
Alternativ ist es möglich, den Pulsgenerator in die Steuereinheit zu integrieren, wodurch die Steuereinheit das Steuersignal mit regelbarer Pulsbreite selbst direkt erzeugen kann. Dadurch wird das Vorsehen eines getrennten Pulsgenerators vermieden.Alternatively, it is possible to integrate the pulse generator in the control unit, whereby the control unit can directly generate the control signal with adjustable pulse width itself. This avoids the provision of a separate pulse generator.
Die Steuereinheit der Steuerungsvorrichtung weist vorteilhaft zumindest eine Datenverarbeitungseinheit zum Verarbeiten von Daten auf, wodurch die Steuereinheit die Daten zur Bestimmung der jeweils aktuellen Pulsbreite des Steuersignals schnell und effizient erfassen und verarbeiten kann. Besonders vorteilhaft umfasst die Datenverarbeitungseinheit einen Mikrokontroller. Ein solcher Mikrokontroller ist kostengünstig und kann problemlos an ein jeweiliges Anwendungsgebiet angepasst werden.The control unit of the control device advantageously has at least one data processing unit for processing data, whereby the control unit can quickly and efficiently acquire and process the data for determining the respectively current pulse width of the control signal. Particularly advantageously, the data processing unit comprises a microcontroller. Such a microcontroller is inexpensive and can be easily adapted to a particular field of application.
Im Allgemeinen weist eine Steuereinheit eine niederohmige Impedanz auf, während ein Spannungsmesser eine hochohmige Impedanz aufweist. Aus diesem Grund erweist es sich als vorteilhaft, wenn die Steuereinheit einen Impedanzwandler zur Anpassung der Impedanz des hochohmigen Spannungsmessers an die niederohmige Impedanz der Steuereinheit umfasst. Dadurch wird ein zum Ermitteln des Eingangsspannungssignals der Steuereinheit verwendbarer Spannungsmesser nur minimal belastet und die Genauigkeit der erfassbaren Messwerte wird erhöht.In general, a control unit has a low impedance, while a voltmeter has a high impedance. For this reason, it proves to be advantageous if the control unit comprises an impedance converter for matching the impedance of the high-impedance voltmeter to the low-impedance of the control unit. As a result, a voltmeter which can be used to determine the input voltage signal of the control unit is only minimally loaded and the accuracy of the detectable measured values is increased.
Solch ein Impedanzwandler umfasst vorteilhaft zumindest einen Operationsverstärker, da dieser kostengünstig und vielseitig einsetzbar ist. Weiterhin hat ein Operationsverstärker gegenüber der diskreten Schaltungstechnik den Vorteil, dass eine Stabilisierung des Arbeitspunktes und eine Kompensation des Temperaturverhaltens nicht notwendig ist.Such an impedance converter advantageously comprises at least one operational amplifier, since this is inexpensive and versatile. Furthermore, an operational amplifier over the discrete circuit technology has the advantage that a stabilization of the operating point and a compensation of the temperature behavior is not necessary.
Die Datenverarbeitungseinheit arbeitet im Allgemeinen intern mit digitalen Signalen. Ein eingangsseitig anliegendes Analogsignal, hier analoges Messsignal des Spannungsmessers zum Ermitteln des Eingangsspannungssignals der Steuereinheit, sollte daher gewandelt werden. Hierzu umfasst die Datenverarbeitungseinheit einen Analog-Digital-Wandler, der die analogen Signale in digitale Signale zur Weiterverarbeitung in der Datenverarbeitungseinheit umwandelt.The data processing unit generally operates internally with digital signals. An analog signal applied on the input side, here analog measuring signal of the voltmeter for determining the input voltage signal of the control unit, should therefore be converted. For this purpose, the data processing unit comprises an analog-to-digital converter, which converts the analog signals into digital signals for further processing in the data processing unit.
Das Schaltgerät umfasst eine Spule, nämlich die Anzugs- und/oder Haltespule zur Betätigung des Spannungs- und/oder Stromauslösers. Bei einer eingangsseitig anliegenden Wechselspannung ist es daher vorteilhaft, wenn die Steuerungsvorrichtung eingangsseitig eine Gleichrichterschaltung zum Gleichrichten einer an dem Eingang der Steuerungsvorrichtung anliegenden Wechselspannung aufweist.The switching device comprises a coil, namely the tightening and / or holding coil for actuating the voltage and / or current release. In the case of an AC voltage present on the input side, it is therefore advantageous if the control device has on the input side a rectifier circuit for rectifying an AC voltage applied to the input of the control device.
Ferner kann das Eingangsspannungssignal der Steuerungsvorrichtung neben einem Gleichspannungsanteil auch Wechselspannungsanteile umfassen, die von einer vorteilhaft vorgesehenen Filterschaltung ausgefiltert werden können. Eine solche Filterschaltung kann eingangsseitig der Steuerungsvorrichtung vorgesehen sein.Furthermore, the input voltage signal of the control device can comprise, in addition to a DC component, also AC components that can be filtered out by an advantageously provided filter circuit. A Such filter circuit may be provided on the input side of the control device.
Abhängig vom Einsatzgebiet der Steuerungsvorrichtung sind alternative Ausführungsformen der Steuerungsvorrichtung möglich. So ist es zum Beispiel vorteilhaft, wenn das Verfahren zum Steuern kontinuierlich durchführbar ist, wenn die Eingangsspannung der Steuereinheit starken Schwankungen unterliegt. Unter anderen Umständen kann es jedoch auch sinnvoll sein, dass das Verfahren zum Steuern zu bestimmten einstellbaren Zeitpunkten (wahlfrei) durchführbar ist, zum Beispiel, wenn vorhersehbar ist, dass sich die Eingangsspannung nur zu bestimmten Zeitpunkten ändert. Für das Erfassen einer solchen Änderung ist ein Durchführen des Verfahrens nach der Eingangsspannungsänderung vorgesehen. Die Genauigkeit, mit der die Steuerungsvorrichtung den Strom durch ein Schaltgerät konstant hält, kann von der Häufigkeit der Steuervorgänge abhängen. Damit die Steuerungsvorrichtung möglichst flexibel einsetzbar ist, erweist es sich als vorteilhaft, wenn die Steuerung zusätzlich zur kontinuierlichen und wahlfreien Steuerung noch intermittierend durchführbar ist, d.h. die Steuerung wird regelmäßig im gleichen Zeitabstand durchgeführt, wobei die Zeit zwischen zwei Steuervorgängen einstellbar ist.Depending on the field of application of the control device, alternative embodiments of the control device are possible. For example, it is advantageous if the method for controlling is continuously feasible if the input voltage of the control unit is subject to great fluctuations. In other circumstances, however, it may also be expedient that the method for controlling may be carried out (at random) at certain adjustable times, for example when it is foreseeable that the input voltage will only change at certain points in time. For detecting such a change, performing the method after the input voltage change is provided. The accuracy with which the control device keeps the current through a switching device constant may depend on the frequency of the control operations. In order for the control device to be used as flexibly as possible, it proves to be advantageous if, in addition to the continuous and random control, the control can still be carried out intermittently, i. the control is performed regularly at the same time interval, wherein the time between two control operations is adjustable.
Vorausgesetzt, dass die Genauigkeit des Haltens des Stroms durch die Anzugs- und/oder Haltespule des Schaltgeräts unter anderem von der Häufigkeit abhängt, mit der die Steuerung durchgeführt wird, ist es vorteilhaft, wenn die Zeit zwischen zwei Steuervorgängen nicht größer als 150µs und vorzugsweise nicht größer als 70 µs ist.Given that the accuracy of holding the current through the pull-up and / or holding coil of the switching device depends, inter alia, on the frequency with which the control is performed, it is advantageous if the time between two control operations is not greater than 150μs, and preferably not greater than 70 μs is.
Die Erfindung wird nachstehend anhand eines in den Zeichnungen dargestellten Ausführungsbeispiels näher erläutert. Diese zeigen in:
Figur 1- ein Schaltdiagramm einer erfindungsgemäßen Steuerungsvorrichtung für ein Schaltgerät mit einer Anzugs- bzw. Haltespule,
Figur 2- ein Schaltdiagramm des Details der Steuereinheit der Steuerungsvorrichtung gemäß
Figur 1 , Figur 3- ein Ablaufdiagramm der Ermittlung einer neuen Pulsweitenmodulationseinschaltzeit, die von der Steuereinheit der Steuerungsvorrichtung gemäß
Figur 1 durchgeführt wird, und Figur 4- ein Spannungs-/Zeit-Diagramm eines Spannungssignals, aufgetragen auf der Einschaltzeit der Pulsweitenmodulation für die Steuerung der Schaltvorrichtung gemäß
.Figur 1
- FIG. 1
- a circuit diagram of a control device according to the invention for a switching device with a holding or holding coil,
- FIG. 2
- a circuit diagram of the details of the control unit of the control device according to
FIG. 1 . - FIG. 3
- a flowchart of the determination of a new pulse width modulation on-time, the from the control unit of the control device according to
FIG. 1 is performed, and - FIG. 4
- a voltage / time diagram of a voltage signal, plotted on the ON time of the pulse width modulation for the control of the switching device according to
FIG. 1 ,
In
Die Steuereinheit 4 vergleicht die momentan an der Anzugs-/Haltespule 2 anliegende, berechnete Spulenspannung USp mit einem in der Steuereinheit 4 hinterlegten Spulenspannungssollwert USp,soll und ändert in Abhängigkeit von dem Vergleichswert die Pulsbreite des Steuersignals, so dass die Schaltvorrichtung 3 die Spulenspannung USp an der Anzugs-/Haltespule 2 annähernd konstant hält. Zum Vergleich mit dem Spulenspannungssollwert USp,soll benötigt die Steuereinheit 4 die momentan an der Steuerungsvorrichtung 1 anliegende Eingangsspannung U. Die Eingangsspannung U wird der Steuereinheit 4 über einen Spannungsmesser 5 zur Verfügung gestellt, wobei eine Abtasteinrichtung 6 zum Abtasten der Eingangsspannung U vorgesehen sein kann.The
Eine am Eingang der Steuerungsvorrichtung 1 anliegende Wechselspannung wird durch eine Gleichrichterschaltung bzw. Filterschaltung 7 in eine Gleichspannung umgewandelt, wobei eine Umwandlung in eine pulsierende Gleichspannung ausreichend ist. Die Gleichspannung liegt an der Abtasteinrichtung 6 sowie der Spule 2 an.A voltage applied to the input of the
Bei dem von dem Spannungsmesser 5 ermittelten Wert der Eingangsspannung U der Steuerungsvorrichtung 1 handelt es sich um einen analogen Messwert. Um diesen analogen Messwert an die digitale Weiterverarbeitung in dem Mikrocontroller 8 anzupassen, ist am Eingang des Mikrocontrollers 8 ein Analog/Digitalwandler A1 vorgesehen. Mit Hilfe des digitalisierten Wertes der Eingangsspannung der Steuerungsvorrichtung 1,der vorhandenen Zeit tOn der Puls-weitenmodulation (=Pulsweitenmodulations-Einschaltzeit) und der Periodendauer tPWM (=Pulsweitenmodulationszeit) bestimmt der Mikrocontroller 8 die momentan an der Anzugs-/Haltespule 2 anliegende Spulenspannung USp, welche der Mikrocontroller 8 mit einem hinterlegten Spulenspannungssollwert USp,Soll vergleicht. In Abhängigkeit von dem Vergleichswert erzeugt der Mikrocontroller 8 ein neues Steuersignal mit einer angepassten Pulsbreite.The value of the input voltage U of the
In dem nächsten Schritt 12 wird die Spulenspannung USp mit dem vorgebbaren Spulenspannungssollwert USp,soll verglichen. Dies erfolgt in einem Regler (siehe
Im letzten Schritt 13 wird das Steuersignal mit der neuen Pulsbreite PWM erzeugt und an die Schaltvorrichtung 3 weitergeleitet, wie in
Neben den im Vorstehenden beschriebenen und in den Figuren dargestellten Ausführungsbeispielen von Steuerungsvorrichtungen für ein Schaltgerät mit einer Anzugs- und/oder Haltespule sind noch zahlreiche weitere möglich, bei denen jeweils eine einstellbare Pulsbreite eines Steuersignals in Abhängigkeit von einer erfassbaren Eingangsspannung der Steuerungsvorrichtung so eingestellt wird, dass die Spannung an der Anzugs- und/oder Haltespule und somit der durch diese fließende Strom annähernd konstant gehalten wird.In addition to the embodiments described above and shown in the figures of control devices for a switching device with a Tightening and / or holding coil are still numerous more possible, in each of which an adjustable pulse width of a control signal in response to a detectable input voltage of the control device is set so that the voltage across the tightening and / or holding coil and thus the current flowing through them is kept approximately constant.
Claims (17)
- Control apparatus (1) for a switching device having a trip coil and/or a holding coil (2), comprising a pulse-width-controlled switching apparatus (3) connected to the coil (2), and a control unit (4) which is connected to the switching apparatus (3) and generates a control signal having an adjustable pulse width, the control unit (4) setting the pulse width of the control signal as a function of the input voltage signal (U) of the control unit (4) such that the control apparatus (1) maintains the current through the trip coil and/or the holding coil (2) of the switching device in an approximately constant manner, the control unit (4) determining the voltage of the switching device by determining an instantaneous coil voltage (USp) at the trip coil and/or the holding coil (2) from a determined input voltage signal (U) of the control unit (4), taking into account a pulse width modulation time (tPWM), and by adjusting a current pulse width modulation switch-on time (tOn) from the instantaneous coil voltage (USp), characterised in that a data processing unit (8) of the control unit (4) compares the instantaneous coil voltage (USp) of the trip coil and/or the holding coil (2) of the switching device with a predeterminable coil voltage target value (USp,soll) stored in the control unit (4) and determines the current pulse width modulation switch-on time (tOn) for the output signal of the control unit (4) as a function of the comparative value.
- Control apparatus (1) according to claim 1, characterised in that the coil voltage target value (USp,soll) is not greater than the minimum value of the input voltage (U) of the control apparatus (1).
- Control apparatus (1) according to either claim 1 or claim 2, characterised in that a voltmeter (5) measures the voltage applied at the control apparatus (1).
- Control apparatus (1) according to any of the preceding claims, characterised in that a scanning device (6) is provided for scanning the input voltage signal.
- Control apparatus (1) according to any of the preceding claims, characterised in that the pulse-width-controlled switching apparatus (3) comprises a switching transistor.
- Control apparatus (1) according to claim 5, characterised in that the switching transistor is a field-effect transistor (3), in particular a self-blocking, N-channel isolation layer field-effect transistor (3).
- Control apparatus (1) according any of the preceding claims, characterised in that a pulse generator generates the control signal having the adjustable pulse width.
- Control apparatus (1) according to any of claims 1 to 6, characterised in that the control unit (4) generates the control signal having the adjustable pulse width.
- Control apparatus (1) according to any of the preceding claims, characterised in that the control unit (4) comprises at least one data processing unit (8) for processing data.
- Control apparatus (1) according to claim 9, characterised in that the data processing unit (8) comprises a microcontroller (8).
- Control apparatus (1) according to any of the preceding claims, characterised in that the control unit (4) comprises an impedance converter (9) for adapting the impedance of the high-resistance voltmeter (5) to the low-resistance impedance of the control unit (4).
- Control apparatus (1) according to claim 11, characterised in that the impedance converter (9) of the control unit (4) comprises at least one operational amplifier (9).
- Control apparatus (1) according to any of claims 9 to 12, characterised in that the data processing unit (8) comprises, on the input side, an analogue-digital converter (A1) for converting the analogue measuring signal of the voltmeter (5) into a digital signal for further processing in the data processing unit (8).
- Control apparatus (1) according to any of the preceding claims, characterised in that a rectifier circuit (7) is provided for rectifying an alternating voltage applied at the input of the control apparatus (1).
- Control apparatus (1) according to any of the preceding claims, characterised in that a filter circuit (7) is provided for filtering out alternating-voltage portions from the input signal of the control apparatus (1).
- Control apparatus (1) according to any of the preceding claims, characterised in that the time period between two control procedures is not greater than 150 µs and is preferably not greater than 70 µs.
- Switching device comprising an integrated control apparatus (1) according to any of claims 1 to 16.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102007031995A DE102007031995A1 (en) | 2007-07-09 | 2007-07-09 | Control device for a switching device with tightening and / or holding coil and method for controlling the current flowing through the coil |
PCT/EP2008/002909 WO2009006952A2 (en) | 2007-07-09 | 2008-04-12 | Control apparatus for a switching device with a pull-in coil and/or a holding coil and method for controlling the current flowing through the coil |
Publications (2)
Publication Number | Publication Date |
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EP2171739A2 EP2171739A2 (en) | 2010-04-07 |
EP2171739B1 true EP2171739B1 (en) | 2015-08-26 |
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ID=40032507
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP08735197.9A Not-in-force EP2171739B1 (en) | 2007-07-09 | 2008-04-12 | Control apparatus for a switching device with a pull-in coil and/or a holding coil and method for controlling the current flowing through the coil |
Country Status (7)
Country | Link |
---|---|
US (1) | US20100289603A1 (en) |
EP (1) | EP2171739B1 (en) |
JP (1) | JP4991936B2 (en) |
CN (1) | CN101689442A (en) |
CA (1) | CA2693408A1 (en) |
DE (1) | DE102007031995A1 (en) |
WO (1) | WO2009006952A2 (en) |
Families Citing this family (13)
Publication number | Priority date | Publication date | Assignee | Title |
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EP1317537B1 (en) * | 2000-09-08 | 2006-12-20 | Massachusetts Institute Of Technology | G-csf analog compositions and methods |
DE102007046634B3 (en) | 2007-09-27 | 2009-05-28 | Moeller Gmbh | Power supply for a voltage or current-triggering switching device and their use in such a switching device and method for supplying power to such a switching device |
US8159808B2 (en) * | 2009-02-26 | 2012-04-17 | Raytheon Company | +28V aircraft transient suppression |
DE102010018755A1 (en) | 2010-04-29 | 2011-11-03 | Kissling Elektrotechnik Gmbh | Relay with integrated safety circuit |
DE102011089996B4 (en) * | 2011-12-27 | 2018-02-01 | Continental Automotive Gmbh | On-board network system and method for operating a vehicle electrical system |
CN103578854B (en) * | 2012-08-10 | 2016-01-06 | 伊顿电气Ip两合公司 | For having the control device of the switchgear of sucking coil separately and hold-in winding |
DE102013220853A1 (en) * | 2013-10-15 | 2015-04-16 | Continental Automotive Gmbh | A method for driving an electromagnetic actuator with a coil |
DE102014108107A1 (en) | 2014-06-10 | 2015-12-17 | Endress + Hauser Flowtec Ag | Coil arrangement and thus formed electromechanical switch or transmitter |
US9786457B2 (en) | 2015-01-14 | 2017-10-10 | General Electric Company | Systems and methods for freewheel contactor circuits |
CN105244228B (en) * | 2015-10-22 | 2018-02-16 | 河南精诚汽车零部件有限公司 | A kind of automobile-used starter relay with double protection functions |
DE102016100188A1 (en) * | 2016-01-05 | 2017-07-06 | Eaton Electrical Ip Gmbh & Co. Kg | Control device for an electromagnetic drive of a switching device |
US11488798B2 (en) | 2020-03-17 | 2022-11-01 | Hamilton Sundstrand Corporation | Current source contactor drive with economizers |
CN112187228A (en) * | 2020-09-30 | 2021-01-05 | 贵州天义电器有限责任公司 | Constant-current pulse width modulation circuit for contactor coil |
Family Cites Families (13)
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DE4117535A1 (en) * | 1991-05-29 | 1992-12-03 | Miele & Cie | Relay control circuit for domestic electrical appliance - uses switching transistor supplied with control signal dependent on supply voltage amplitude |
JP3496982B2 (en) * | 1994-07-15 | 2004-02-16 | 三菱電機株式会社 | Electromagnetic contactor |
DE19516995A1 (en) * | 1995-05-09 | 1996-11-14 | Siemens Ag | Relay switch control circuit including oscillator |
DE19524003A1 (en) * | 1995-06-30 | 1997-01-09 | Siemens Ag | Electronic control circuit for electromagnetic mains relay - has relay coil electrical parameter compared with reference value to control electronic switch in series with relay coil |
SE505747C2 (en) * | 1996-02-07 | 1997-10-06 | Asea Brown Boveri | Contactor |
US5930104A (en) * | 1998-03-06 | 1999-07-27 | International Controls And Measurement Corp. | PWM relay actuator circuit |
FR2786920B1 (en) * | 1998-12-07 | 2001-01-12 | Schneider Electric Ind Sa | STANDARD CONTROL DEVICE OF AN ELECTROMAGNET FOR OPENING OR CLOSING A CIRCUIT BREAKER |
DE29909901U1 (en) | 1999-06-08 | 1999-09-30 | Moeller GmbH, 53115 Bonn | Electronic drive control for a contactor drive |
DE19935045A1 (en) * | 1999-07-26 | 2001-02-01 | Moeller Gmbh | Electronic drive control |
JP2002184283A (en) * | 2000-12-11 | 2002-06-28 | Fuji Electric Co Ltd | Ac/dc common electromagnetic contactor |
EP1300862A1 (en) * | 2001-10-04 | 2003-04-09 | Moeller GmbH | Electronic apparatus for controlling a contactor |
DE10155969A1 (en) * | 2001-11-14 | 2003-05-22 | Bosch Gmbh Robert | Arrangement for controlling electromagnetic actuating element or relay has regulating device that sets voltage on electromagnetic actuating element that is specified for electromagnetic element |
FR2900273B1 (en) * | 2006-04-19 | 2008-05-30 | Abb Entrelec Soc Par Actions S | CONTACTOR COMPRISING A CONTROL CIRCUIT WHOSE POWER SUPPLY IS SUBJECT TO ELECTRICAL DISTURBANCES |
-
2007
- 2007-07-09 DE DE102007031995A patent/DE102007031995A1/en not_active Ceased
-
2008
- 2008-04-12 WO PCT/EP2008/002909 patent/WO2009006952A2/en active Application Filing
- 2008-04-12 EP EP08735197.9A patent/EP2171739B1/en not_active Not-in-force
- 2008-04-12 CN CN200880024282A patent/CN101689442A/en active Pending
- 2008-04-12 JP JP2010515353A patent/JP4991936B2/en not_active Expired - Fee Related
- 2008-04-12 US US12/665,446 patent/US20100289603A1/en not_active Abandoned
- 2008-04-12 CA CA2693408A patent/CA2693408A1/en not_active Abandoned
Also Published As
Publication number | Publication date |
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DE102007031995A1 (en) | 2009-01-15 |
JP4991936B2 (en) | 2012-08-08 |
CA2693408A1 (en) | 2009-01-15 |
EP2171739A2 (en) | 2010-04-07 |
WO2009006952A2 (en) | 2009-01-15 |
CN101689442A (en) | 2010-03-31 |
JP2010532958A (en) | 2010-10-14 |
WO2009006952A3 (en) | 2009-03-12 |
US20100289603A1 (en) | 2010-11-18 |
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