DE19912185A1 - Lighting installation with control appliance, includes programmable logic for setting lighting program depending on frequency of switching activity - Google Patents

Abstract

A lighting device (4) includes a control appliance based on programmable logic (3) with a power pack and power (output) stage; an installed switch (1) serves to disconnect the mains line L/N from the lighting device (4) followed after a brief pause by reconnection, the switching action being detected by the programmable logic (3). Depending on the frequency of interruption, various programs are processed in the programmable logic (3), in which a time-slot is programmed, allowing line interruptions in excess of 200 mu seconds and which are safely distinguished from briefer line disruptions in order not to violate valid standards for installation equipment.

Description

The invention relates to a lighting device according to the preamble of the claim 1.

Light-emitting diodes (LEDs) are used because of their very high light output Signal applications also used for lighting purposes. See the catalog of Insta 1998/99, pages 42-49. There are also fairy lights with small light bulbs the technology with which chaser applications can also be realized.

The disadvantage of the prior art is the adjustability of operating modes such. B. different dimming settings, running light effects or on and declining light effects. For this purpose, buttons and / or controllers on the control unit must be actuated in the prior art or the operating mode can be set with a remote control.

The object of the invention is to improve the prior art in that the Setting the operating mode of lighting devices with LEDs using a Installation switch on the potential of the supply network is reached.

This object is achieved by the specified in the characterizing part of claim 1 Characteristics. Further design features are the subject of the subclaims.

Different operating modes can be set due to the network interruptions. Here is however, please note that applicable regulations are not violated. The evaluation of the The network is interrupted using programmed logic. It must be ensured be that the supply voltage of the programmable logic is retained. With each interruption in the network, one can other operating mode can be switched, which is stored in the memory and with the associated program part is executed. The operating mode does not have to be displayed separately take place because it is sufficiently characterized by the light emitting diodes. The The current standard states that network interruptions are accommodated in a time window and that no change of state may occur outside of this time. The maximal For the sake of simplicity, B. by buffering the supply voltage for the programmable logic determined. A time window for the invention is expedient here usable network interruptions from 200 ms to 2 s. If the network interruption for one performed significantly longer than the maximum time, the facility falls back into the first operating mode back. For example, this is the operating mode "full brightness for all connected light-emitting diodes " Operating mode has been reached, it can preferably be restarted with a further network interruption the basic state can be reached in order to ultimately cycle through the To achieve operating states.

A ballast must be used to operate LEDs with mains potential limit the current through the diodes. This can be done with a conventional power supply  wound transformer, rectification and screening or a switching power supply. The Diodes can be operated with SELV, which is too much simple conditions for the laying of the LEDs. But that is also conceivable Operation of the LEDs at network potential, e.g. B. with capacitor or Resistor power supplies and the necessary higher protection requirements Contact.

Because light-emitting diodes, in contrast to incandescent lamps, halogen lamps or energy-saving lamps do not absorb high inrush currents, the current consumption after an interruption in the Range of nominal current consumption in continuous operation. In contrast to the listed Illuminants convert the current flow into light without any inertia.

The load in the device described is so low that it is easy with electronic Switches such as B. can be switched bipolar transistors or MOS-Fets.

An embodiment of the invention is explained with reference to the drawing figure, which shows the control unit in a block diagram. By interrupting and restarting by means of the installation switch 1 , the power line L / N is briefly interrupted by the lighting device 4 . This process is recognized by a programmable logic 3 in the lighting device 4 . Depending on the frequency of the interruption, 3 different program parts are processed in the programmable logic. A time window is programmed in the programmable logic 3 , which permits a network interruption greater than 200 ms and reliably differentiates it from shorter network interruptions in order not to violate valid standards for installation devices. When the mains voltage returns, the associated operating mode is carried out immediately as an optical check. Two chains of light-emitting diodes 2 connected in series are shown in the illustration by way of example.

Reference list

1

Installation switch

2nd

LEDs

3rd

programmable logic

4th

Lighting device

Claims (4)

1. Lighting device ( 4 ) with light-emitting diodes ( 2 ) and an installation switch ( 1 ) in the power supply line, characterized in that with the aid of a programmable logic ( 3 ) in the lighting device ( 4 ), any brief interruption in the network that occurs through the installation switch is detected and then a certain further operating mode programmed in the logic ( 3 ), such as dimming effects, running light effects or similar functions, is carried out. 2. Lighting device according to claim 1, characterized by a switching power supply, which generates operating voltage in the form of safety extra-low voltage (SELV). 3. Lighting device according to claim 1, characterized in that the control with a microcontroller or a customized circuit (ASIC) becomes. 4. Lighting device according to claim 1 and 3, characterized in that the dimming of the LEDs ( 2 ) by means of pulse width modulation (PWM).