GB2502374A - LED driver circuit - Google Patents

Abstract

An LED driver circuit 1 comprises means 2 to connect to a sinusoidal AC mains input, a rectifier 3 to rectify the AC input to create a DC supply, said rectifier having an input 3A, 3B and an output 3C, 3D and an LED array X connected to the output of the rectifier. At least one pair of back to back capacitors 4A, 4B are provided in series with the input of the rectifier. A thermistor 5 may be provided in series with the input of the rectifier and the mains input.

Description

Title: LED Driver Circuit The present invention relates to a LED driver circuit.

It is known to provide arrays of LED lights driven by a low DC voltage often converting a mains voltage to a working DC voltage through a transformer and rectifier circuit. Such array of LEDs may be used in many applications such as lamps, street lights, shops, garages, gardens, car parks and the like, and are less costly to run than incandescent type light bulbs. In the case of lamps, the light output is restrained by the amount of power deliverable by the transformer which has to be quite small in order for it to fit in a casing which is equivalent in size to a conventional light bulb.

The invention seeks to provide an LED driver circuit which can deliver a greater light output to power input ratio than that knpwn hitherto and which can be made compact in size.

According to the present invention an LED driver circuit comprising: a) means to connect to a sinusoidal AC mains input, b) a rectifier to rectify the AC pulse to create a DC pulse, sai&rectifier having an input and output c) at least one pair of back to back capacitors in series with the input of the rectifier and the mains input, and d) one or more LEDs connected to be driven by the output of the rectifier.

Preferably back to back capacitors are electrolytic capacitors.

Preferably two pairs of back to back capacitors are provided.

Preferably a capacitor is provided across the LEDs.

Preferably a thermistor is provided in series with the input of the rectifier and the mains input.

The invention also relates to an LED lamp incorporating the above defined feeder circuit.

An embodiment of the invention will now be described with reference to the accompanying drawings showing a circuit diagram.

Referring to Figure 1 there is shown an LED driver circuit I for a string of LEDs X. Circuit I connects to a sinusoidal AC mains input 2.

A rectifier 3 is provided having an AC input 3A,3B and a DC output 3C,3D.

Two pairs of back to back electrolytic capacitors 4A,4B are provided wired is series with the input 3A,3B of the rectifier 3.

LEDs X are connected to the output 3C,3D of rectifier 3.

In use the capacitor values are selected so that the voltage across the LEDs X is at the correct operating voltage of the LEDs. The back to back capacitors also limit the current. Typical values of 6.8 or 5.6 uf may be used to deliver 350mA to a string of say fourteen LEDs. Back to back electrolyties allow their Operation on sine waves. It may be preferable to use 250v electrolytic capacitors because they have a tan delta of 0.15 whereas 400v versions are 0.2. This means that with 250v devices the self heating is reduced by 25% compared to 400v versions.

In order to prevent a current surge from damaging the LEDs X, an NTL thermistor 5 is provided in series with the input of the rectifier and the mains input, and a capacitor 6 is provided across the LEDs X. Preferably a thermistor is provided in series with the input of the rectifier and the mains input.

The circuit is very compact, and whilst it may be used to drive LEDs in a number of different applications, the circuit lends itself to being positioned inside of an LED lamp to replace conventional light bulbs.

Whilst a single pair of' back to back capacitors may be used, two pairs (or possibly more pairs) are preferred in order to keep the capacitors cool. Electrolytic capacitors work well and are economical, but other types of capacitors could also be used.

The circuit can be used with conventional mains dimmers whereby the LEDs can be dimmed.

Also the circuit provides a leading power factor which can help neutralise the effects of other appliances with lagging power factors.

The invention my take a form different to that specifically described above.

Further modifications will be apparent to those skilled in the art without departing from the scope of the present invention.

Claims (7)

1. CLAIMS1. An LED driver circuit comprising: e) means to connect to a sinusoidal AC mains input, f) a rectifier to rectify the AC pulse to create a DC pulse, said rectifier having an input and out out g) at least one pair of back to back capacitors in series with the input of the rectifier and the mains input, and one or more LEDs connected to be driven by the output of the rectifier.
2. 2. An LED driver circuit according to claim I. wherein the or each pair of back to back capacitors are electrolytic capacitors.
3. 3. An LED driver circuit according to claim I or 2. two pairs of back to back capacitors are provided.
4. 4. An LED feeder circuit according to any preceding claim, wherein a capacitor is orovided nrrn5 the tEDs.
5. 5. An LED feeder circuit according to any preceding claim, wherein a thermistor is provided in series with the input of the rectifier and the mains input.
6. 6. An LED feeder circuit substantially as hereinbefore described with reference to and as shown in the aceomnanving drawings.
7. 7. An LED lamo having an LED feeder circuit according to any preceding claim.