NL1029768C2 - Electronic ballast circuit for e.g. car headlamps, includes current or voltage regulating device for controlling power supply period - Google Patents

Abstract

The circuit (1) comprises a first connector for connecting the circuit to the current source, a second connector for connecting the circuit to the electronic device (5) and a current or voltage regulating device for controlling the switching period during which energy is supplied to the electronic device so that the power supplied to this device is limited to the power required during normal operating conditions. The regulating device comprises a resistor for restricting the amount of current through the electronic device and a relay for short circuiting the resistor and a voltage restricting device comprising an oscillator (2) for generating a triangle voltage, a converter (3) for generating a variable pulse width signal and a MOSFET transistor (4) for providing a current with a voltage corresponding to this signal.

Description

ARRANGEMENT DEVICE

In particular with DC equipment such as incandescent lamps, heating elements and devices comprising at least one (electrolytic) capacitor, a high inrush current occurs. The reason for this is with incandescent lamps and heating coils that the resistance in cold condition is very low while the resistance at operating temperatures is relatively high. In equipment comprising capacitors 10, the impedance during charging of the capacitors is generally lower than when the capacitors are in the charged operating state.

A consequence of this is that a current peak arises for a short period of time after switching on such an electrical device. For example, with incandescent lamps, a current can be measured in this peak which is proportional to the reduced resistance. For example, with an operational resistance of 3 Q and an initial resistance of 0.2 Ω, the current peak can rise to fifteen times the current at the operational resistance (see Figures 3 and 4). In this example, a greatly increased current can be observed, particularly during the time period from 0 to 100 milliseconds. A consequence of this current peak is increased wear of, for example, a filament during this period. Such a wear peak therefore always occurs with a "cold start" of such a device. This has a negative impact on the lifespan.

In order to obviate the aforementioned disadvantage, the present invention provides a control device for limiting the power supplied to a electrical device from a direct current source during a switching period from switching on the electric current until the normal operation is achieved. operating conditions of the electrical device, the ballast comprising: 1029768 2 - a first connector for connecting the ballast to the power source, - a second connector for connecting the ballast to the electrical device, - a current or voltage regulator for controlling the energy supplied to the electrical device during the switching period in such a manner that the power supplied to the electrical device is substantially limited to the power of this device during normal operating conditions of the device.

An advantage of such a device is that the current peaks that occur when using the known direct current devices are prevented or limited.

As a result, the wear of these devices is greatly reduced, so that the service life is greatly increased. The service life can be extended several times depending on the usage behavior. For example, when using lighting in vehicles, this increases safety, among other things, because the frequency of dangerous situations that can arise due to the failure of the lighting can be greatly reduced. The inconvenience of the failure of lighting is also prevented or the frequency thereof is reduced. Furthermore, the consumption costs are reduced because equipment needs to be replaced less frequently and penalties for equipment failures are prevented.

In a preferred embodiment, the control means comprises a voltage limiting means. As a result, the voltage is limited in particular during the period of time that the resistance or impedance of the electrical device is relatively low. This prevents a current peak.

In a further preferred embodiment the control member comprises a limiting resistor for limiting the current through the electrical device, and a relay for short-circuiting the limiting resistor.

102976 3

In an alternative embodiment, it comprises the voltage limiting means comprising a voltage limiting means by means of a pulse width modulation, whereby a very reliable operation can be offered. Preferably, a MOS-FET transistor is furthermore provided which is preferably of the N depletion type. As a result, relatively high powers can be controlled by pulse width modulation.

A timer circuit is preferably provided for controlling the control member. As a result, the switching period can, for example, be set optimally.

In embodiments in which the ballast is used with regularly activated electrical devices, it sometimes happens that the electrical device, such as the lamp, has not yet cooled down in such a way that the resistance thereof has become very low. In such situations, the ballast does not need to be activated, or only to a limited extent. To this end, in a further embodiment, a time-measuring device is provided for activating the ballast from a predetermined earlier switch-on or from, for example, a switch-off moment of the electrical device such as the lamp.

A further embodiment offers an alternative possibility for leaving the ballast device switched off, namely a sensor for determining whether the electrical device is in the normal position. driving conditions. In this case, the ballast does not need to be switched on.

The first and second connectors preferably comprise poles for coupling to different types of headlamp connectors, such as H1, H4, HB4 and / or H7. An advantage hereof is that a variety of headlights can be coupled by means of a type of ballast. Such a solution can also be applied to other equipment where different couplings are used for different types.

Further advantages, features and details of the present invention will be described in greater detail below with reference to a few embodiments with reference to the attached figures, in which: - FIG. 1 is a schematic representation of a first embodiment of the present invention, FIG. 2 is a schematic representation of a second embodiment of the present invention; FIG. 3 is a graph showing the resistance of an incandescent lamp that is plotted against time when a DC voltage is applied; FIG. 4 is a graph of the current intensity through the incandescent lamp with the resistance development of FIG. 3 when applying a direct current source; FIG. 5 shows a graph of the current intensity 15 through the incandescent lamp of FIG. 3 when applying a power source using a switching device according to the present invention; j

FIG. 6 is a schematic representation of an output

embodiment according to the present invention, FIG. 7 is a further schematic representation of an embodiment of the present invention.

A first preferred embodiment (Fig. 1) according to the present invention relates to a ballast 1 with an incandescent lamp 5. The incandescent lamp 5 is, for example, a car headlight. Further examples of a lighting to which the embodiment can be applied are, for example, the rest of the car lighting, moped lighting, truck lighting, train lighting, aircraft lighting, shipping lighting 30 and / or lighting in spacecraft. The switch-on peaks also occur in heating elements that also have a relatively low start-up temperature and a high operating temperature.

The control device 1 comprises an oscillator 2 for generating a triangular voltage. The ballast 1 further comprises a pulse width modulator 3 for modulating a pulse width signal on the basis of the triangular voltage, on the basis of which an output voltage can be obtained. To this end, the device is provided with a depletion type N MOS FET transistor 4 which has an output voltage as an output signal with a magnitude corresponding to the pulse width signal. Depending on the pulse width signal, lamp 5 can therefore be provided with a low initial voltage, so that the desired current build-up of FIG. 5 is obtained.

The shape of the pulse width signal 10 can be adjusted to the desired duration of the switching period. This duration can be adjusted to the starting temperature of the lamp, the warm-up time required to bring the resistance to an acceptable level and / or a predetermined period of time.

In the embodiment of Figure 2, a control device 11 comprises a control member 13 which comprises a limiting resistor and a relay. The limiting resistor allows a limited current to be supplied to the lamp while the switch of the relay 20 is open. After a predetermined time, the switch of the relay will be closed, short-circuiting the switching resistor and providing the power supply to the lamp 14 in a normal manner. In FIG. 7 with symbols known to those skilled in the art, a more specific embodiment is shown schematically on the basis of the embodiment of FIG. 2.

A timer 12 provides the relay with a signal on the basis of which the relay switch can close. A number of practical ways to further functionally shape these embodiments 30 are within the reach of those skilled in the art using this text.

A timer 12 of the second embodiment can alternatively be used in an embodiment with a pulse width modulation to determine the shape of the signal. A lower voltage is supplied here while the filament is still relatively cold and a higher voltage while the filament is already partially heated.

1029768 6

Figure 6 shows a schematic representation of an embodiment of a device according to the present invention. The device comprises connectors 21 and a main unit 23. This embodiment is suitable as a ballast for a car lamp such as a head lamp. For use as a ballast, one of the connectors 21 can be placed on the corresponding connector of the headlight instead of the normal power supply connector. To this end, the connector 21 is provided with poles 10 that match the normal power supply connector of the headlight.

The normal power supply connector of the headlight can be placed in a suitable connector 22 of the ballast. The main unit 23 contains the electrical parts according to, for example, figures 1,2 and 7. The main unit 23 and the connectors 21,22 are connected by means of a wire in order to offer a practical placement possibility during use. It is equally possible to place these parts in a structural unit.

In a further embodiment the connector is provided with a pole arrangement such that it can be placed on a number of different plug types with their respective pole arrangement such as the well-known types H1, H4 and / or H7. this embodiment makes it possible to provide a type of ballast for a number of plug types, which limits the production, logistics and inventory costs of devices according to the present invention.

The present invention has been described with reference to a few embodiments. These embodiments are not limitative of the scope of this text. The rights requested are defined in the appended claims.

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Claims (11)

A control device for limiting the power supplied to a electrical device from a direct current source during a switching period from switching on the electrical current until the normal operating conditions of the electrical device are reached, the control device comprising: 10. a first connector for connecting the ballast to the power source, - a second connector for connecting the ballast to the electrical device, - a current or voltage regulator for controlling the energy supplied to the electrical device during the switching period in such a way that the power supplied to the electrical device is substantially limited to the power of this device during normal operating conditions of the device. The ballast according to claim 1, wherein the electrical device comprises a heat and / or light generating resistor. 3. A ballast as claimed in claim 1, wherein the electrical device comprises at least one capacitor which must be charged during the switching period in order to achieve normal operating conditions. A control device according to claim 1, 2 or 30. wherein the control member comprises: - a limiting resistor for limiting the current through the electrical device, - a relay for short-circuiting the limiting resistor. A ballast according to one or more of the preceding claims, wherein the control member comprises a voltage limiting member. 102976 A ballast according to claim 5, wherein the voltage limiting means comprises: - an oscillator for generating a triangular voltage, 5. a converter for generating a variable pulse width signal, and - a MOSFET transistor for providing a current with a voltage in accordance with the variable pulse width signal. The ballast of claim 6 where the MOSFET transistor is of the depletion N type. A control device according to one or more of the preceding claims, comprising a time circuit for controlling the control member. A ballast according to one or more of the preceding claims, comprising a time measuring device for activating the ballast from a predetermined earlier switch-on. 10. Ballast device according to one or more of the preceding claims, comprising a sensor for determining whether the electrical device is under normal operating conditions. 11. Ballast according to one or more of | the preceding claims wherein the first and second connector tower are provided with poles for coupling to different types of headlight connectors, such as H1, H4, HB4 or H7. 1029768_