NL1002842C2 - Lamp driver circuit. - Google Patents

Description

Title: Lamp driver circuit.

Regarding

The invention relates to a lamp driving circuit comprising an electronic switch coupled to a lamp and a manually operated switch.

Lamp driving circuits are generally known. Such a lamp driving circuit is for instance known from European patent application EP-A-0105676. The lamp driving circuit described herein contains means for detecting whether the lamp in question is defective without having to turn on the lamp.

Furthermore, a lamp driving circuit is generally known, wherein the manually operated switch is a changeover switch, which is coupled either directly to the positive supply voltage or via the electronic switch to the positive supply voltage. A drawback of such a lamp driving circuit is that if the user connects the changeover switch in the position "directly to the supply voltage", the lamp driving circuit can no longer influence the lamp. A further drawback of known lamp driving circuits is that at least two wires to the electronics of the lamp driving circuit are necessary in order to be able to control the relevant lamp both from the electronics and by the user himself. This makes these lamp driving circuits complicated and expensive.

The object of the invention is to eliminate the above drawbacks. It is further contemplated to provide a lamp driving circuit 30 which is simpler than the known lamp driving circuits and which also has more switching possibilities. For this purpose, a lamp driving circuit according to the invention has the feature that the manually operated switch is an interrupt push button and wherein the manually operated switch 35 gives a signal to the lamp driving circuit for driving the electronic switch.

An interrupt push button is here understood to mean a switch which, in the rest state, makes a (conductive) 1C 0 2 8 4 2 2 connection between the two connections of the switch. If the switch is pressed manually, the connection is broken. After the switch is released, the (conductive) connection is (automatically) restored 5 (eg with a spring).

As a result, the electronic switch, if the interrupt push button is operated, will detect an interruption of the circuit. This interruption is recognized by the electronics (of the lamp driving circuit) as switching action 10, whereby the lamp can either be switched off or switched on, depending on the previous state. Furthermore, the lamp driver circuit may effect a different switching action depending on the duration of the interruption. For example, with a brief interruption (eg <10 sec.) The lamp can go on briefly and with a longer interruption the lamp will go on for a long time (or vice versa).

The lamp driving circuit (electronics) can also be set such that with a short interruption the lamp dims slowly off and with another brief interruption slowly turns on, while with a longer interruption the lamp immediately switches on or off.

The lamp driving circuit according to the invention has the advantage that only one wire is necessary, which saves costs and weight, which is of great importance, for example in cars. Furthermore, this improves reliability. The lamp is also completely controlled by the electronics by the lamp driving circuit according to the invention. Finally, an automatic diagnosis of a defective lamp is obtained, namely if the interruption lasts longer than, for example, 25 sec. can be concluded from this that the lamp is defective.

An exemplary embodiment of a lamp driving circuit such as the invention is characterized in that the electronic switch is connected in series with the manually operable switch and the lamp.

The invention will be explained in more detail by way of example with reference to the accompanying figure. To this end shows: 1002842 3

The figure shows a schematic exemplary embodiment of a lamp driving circuit according to the invention.

The figure schematically shows an exemplary embodiment of a lamp driving circuit 1 for driving a lamp 5 L3, which is included in a lamp holder 3. The lamp holder further comprises an interrupt button (switch) S3. The lamp driving circuit 1 comprises an electronic switch S1, in this exemplary embodiment designed as a transistor.

It will be clear that the electronic switch can also be designed as any other suitable semiconductor element acting as a switch or as a combination of semiconductor elements.

Pressing the push button S3 manually results in an interruption of the circuit (between the two supply terminals). This gives a voltage change on the status check or current output 13 of the electronic switch S1. The electronic switch is, for example, provided with a status output 20 ("smart power" MOSFET) or a current sensing output ("current sense" MOSFET). This voltage change is detected by the electronics of the lamp driving circuit as a switching action, which is, for example, either a transition from off to on of the lamp, or vice versa. It is further possible that the lamp driving circuit effects a different switching action depending on the duration of the interruption. For example, with a brief interruption (eg <10 sec.) The lamp can go on briefly and with a longer interruption the lamp can go on for a long time (or 30 vice versa).

The lamp driving circuit (electronics) can also be set so that with a short interruption the lamp dims slowly and with another brief interruption slowly switches on, while with a longer interruption the lamp immediately switches on or off.

It is also possible with the lamp driving circuit according to the invention to give the electronics decision-making authority to "overrule" a manual switching "wish".

1C f? 8 4 2 4

Furthermore, it is also possible to detect with this voltage or current change that the lamp concerned is defective, namely because the interruption lasts longer than a predetermined period (e.g. 25sec.). This makes it possible to detect the defect both when the lamp is off or when the lamp should be on.

It will be clear that a lamp driving circuit according to the invention can be adapted in various minor points without departing from the essence of the invention.

The essence of the lamp driving circuit according to the invention is that it allows the electronics to determine at any time whether the lamp in question may / must be switched on or off.

It is also possible not to include the manually operated switch (S3) in series with the electronic switch (SI) and the lamp (L3). The manually operated switch then only emits a switching signal ("high" or "low").

1202842

Claims (4)

Lamp driver circuit (1) comprising an electronic switch (SI) coupled to a lamp (L3) and to a hand-operated switch (S3), characterized in that the manual-operated switch is an interrupt button and wherein the hand-operated switch gives a signal to the lamp driving circuit for controlling the electronic switch. Lamp driving circuit according to claim 1, characterized in that the electronic switch (SI) is connected in series with the manually operated switch (S3) and the lamp (L3). Lamp driver circuit according to claim 1 or 2, characterized in that the electronic switch contains a MOS FET 15. <»· R» '8 4 £ I 1