DE19544567A1 - Power supply e.g. for bicycle lamp - Google Patents

Abstract

A power supply for a lamp has a battery (2), two condensers (3,4), a voltage regulator (5) which will charge the condensers up to a predetermined degree or for a predetermined time with a pulse of current and an output point (8,9) where the condensers slowly discharge. The lamp is an LED (10). The condensers can be charged up in less than one minute and discharge in several minutes. The cycle is as follows; condensers charge up quickly from a current pulse, discharge through the load and then recharge by the next current pulse.

Description

The invention relates to a power supply and a method for generating a current, especially for a lamp.

Luminaires that are supplied with electricity are, for example, bicycle lights or flashlights known. A battery supplies a light bulb a constant current that lights up the light bulb. Because such However, lights often burn for a long time, thereby draining the battery and it must be recharged or renewed. This procedure is in in the first case very cumbersome and in the second case with very high costs connected.

The invention is therefore based on the object of a power supply and Process for generating electricity, in particular for lights propose with which it is possible to better improve the energy of a battery use. Both a single-use battery and a battery are used here rechargeable battery understood.

This object is achieved with a generic power supply with a Battery, a capacitor, a voltage regulator that adds the capacitor a certain discharge or after a certain time quickly with one Current pulse charges and a tapping point, the capacitor slowly discharges

The invention is based on the finding that a continuously loaded Battery discharges faster than a battery that is only strong for short periods and then relieved for a recovery phase. With the  The power supply according to the invention can thus be a light source, for example be kept on continuously, even though the battery is only for a short time Times is charged. The power supply thus enables a better one Utilization of the energy stored in a battery and thus enables with a battery to keep a lamp on longer than before or to Operating a luminaire for a certain time using a smaller battery than before to use.

It is advantageous if the lamp has a light emitting diode. The usage A light-emitting diode allows a low load on the capacitor To produce light. If more light is needed, more can be used LEDs are connected in parallel or in series.

An embodiment of the invention provides that the capacitor in less than can be charged for one minute and discharged for several minutes. Such Circuit is very compact and can be used in conventional lights to be built in.

In procedural terms, the task is performed by a method for generating a Electricity, especially for a lamp, solved with a direct current a pulse is generated in a battery in order to charge a capacitor is discharged from a current and after a certain discharge or certain time is recharged with another pulse.

An embodiment of the invention is described below with reference to the drawing explained in more detail.  

The single figure shows a circuit diagram for an inventive Power supply.

In its schematic representation, the power supply 1 has a battery 2 on the left-hand side, with which a capacitor 3 can be charged. In the present exemplary embodiment, a further capacitor 4 is provided in addition to the capacitor 3 and is charged at the same time. The charging is carried out by a voltage regulator 5 which has a voltage converter 6 and the entire circuit of the voltage regulator 5 together with the voltage converter 6 is taken over by an integrated circuit. In the event that the battery does not supply direct current, but is installed in a circuit that supplies an alternating current, a rectifier 5 is provided, which can also rectify an incoming alternating current.

The power supply 1 has two outputs 8 and 9 , to which a lamp 10 can be connected. The lamp 10 is a light emitting diode in the present example.

When operating the power supply, the voltage regulator 5 ensures that the capacitors 3 and 4 are charged via a current pulse which lasts about 6 seconds. The capacitors 3 and 4 are then discharged from the light-emitting diode 10 . So that the capacitors are not discharged to such an extent that the light-emitting diode stops lighting, a new pulse from the voltage regulator is fed to the capacitors approximately every 6 minutes, with which the capacitors are recharged.

The circuit presented leads to the fact that the battery 2 is loaded at intervals of approximately 6 minutes for approximately 6 seconds and that the lamp 10 remains illuminated despite the discontinuous load on the battery 2 .

Claims (4)

1. Power supply ( 1 ), in particular for a lamp ( 1 ), with a battery ( 2 ), a capacitor ( 3 , 4 ), a voltage regulator ( 5 ), which the capacitor ( 3 , 4 ) after a certain discharge or after charging a current pulse at a certain time, and a tapping point ( 8 , 9 ) which slowly discharges the capacitor ( 3 , 4 ). 2. Power supply ( 1 ) according to claim 1, characterized in that the lamp ( 10 ) has a light emitting diode. 3. Power supply ( 1 ) according to one of the preceding claims, characterized in that the capacitor ( 3 , 4 ) can be charged in less than a minute and discharged in several minutes. 4. A method for generating a current, in particular for a lamp ( 10 ), in which a pulse is generated with a direct current from a battery ( 2 ) in order to charge a capacitor ( 3 , 4 ) which is discharged with a current and after a certain discharge or a certain time is recharged with another pulse.