EP1732363A2 - Lighting device and method for operating such a lighting device - Google Patents

Abstract

The method involves adjusting operation of an electrical lamp of an illuminating system using an electronic switching device. A measuring procedure characterizing an ambient temperature of the electrical lamp is implemented. A measuring value is generated during the switching procedure. The measuring value is compared with a threshold value, and an electrical output of the electrical lamp is varied when the measured value differs from the threshold value. The output is decreased when the measured value exceeds or falls below the threshold value. An independent claim is also included for an illumination system with an electrical lamp and an electronic switching device.

Description

Technical area

The present invention relates to a method of operating a lighting system comprising an electric lamp and an electronic ballast, wherein the operation of the electric lamp is adjusted by the electronic ballast. Furthermore, the present invention relates to a lighting system comprising an electric lamp and an electronic ballast.

State of the art

Lighting systems with electric lamps and electronic ballasts are known in many ways and are used in different situations and circumstances. In power-controlled or current-controlled electronic ballasts, it can in very narrow electrical lights or electric lamps, which are arranged in a relatively tight space, cause that these electric lamps can not be operated in its optimum operating. Depending on the temperature of the site in which these electrical lights are arranged, there may be temperatures in the electric lamp in which, for example, mercury low-pressure discharge lamps without amalgam are operated relatively far from their optimum mercury vapor pressure. The associated reduced luminous flux leads to a relatively insufficient system luminous efficacy of the entire lighting system. In order to be able to counteract such problems, it is known to use amalgam lamps, which in principle have a broad luminous flux optimum.

Presentation of the invention

The present invention is therefore based on the object to provide a method for operating a lighting system and a lighting system, which allows a more effective and efficient operation of an electric lamp even in relatively confined spaces. In particular, safe operation with a relatively high system efficiency should be ensured even at relatively high temperatures at the place of use of the electric lamp.

This object is achieved by a method having the features of claim 1, and a lighting system having the features of claim 8, solved.

In a method according to the invention for operating a lighting system comprising an electric lamp and an electronic ballast, the operation of the electric lamp is adjusted by this electronic ballast. An essential idea of the invention is that a measuring process characterizing an ambient temperature of the electric lamp is carried out, wherein at least one measured value is generated during the measuring process which is compared with a threshold value and an electric power of the electric lamp when the measured value deviates from the threshold value is changed. It can be achieved by the method according to the invention that effective and efficient operation of the electric lamp can be carried out even in very tight space conditions in which an electric lamp is arranged. Even if the ambient conditions at the place where the electric lamp is arranged do not correspond to optimal ambient operating conditions, the system efficiency and also the luminous flux of the electric lamp can achieve an optimum system efficiency and an optimum luminous flux of the electric lamp can be adjusted. According to the invention, a measuring operation is carried out in a relatively low-effort manner, which characterizes an ambient temperature of the electric lamp, wherein a deviation from an optimum threshold value and thus a deviation from an optimal operation can be adjusted again by the electric power of the electric Lamp is changed.

When the threshold value is exceeded or undershot by the measured value, the electrical power is advantageously reduced, in particular reduced in such a way that the measured value is adjusted to the threshold value. In particular, when the electric lamp is exposed to relatively hot ambient conditions, this can be detected relatively quickly by a corresponding measurement process and be reacted by reducing the electrical power to such hot ambient conditions, whereby it can be achieved that the electric lamp again with substantially their optimal operating conditions is operated. It can thereby be achieved that the system efficiency is again approximated to the optimum system efficiency and the luminous flux of the electric lamp is brought back to the optimum luminous flux.

In the measurement process characterizing the ambient temperature of the electric lamp, at least one lamp parameter can be measured over a predeterminable time period and compared with a stored characteristic curve of the corresponding lamp parameter. Advantageously, the measurement of a characteristic curve of the at least one lamp parameter and the comparison with a stored characteristic curve of this lamp parameter is carried out by means of a microprocessor. It can thereby be achieved that in an accurate and low-cost manner both the detection and the comparison and the initiation and implementation of appropriate measures for possibly necessary correction of the electrical lamp power can be performed.

As a lamp parameter, the lamp voltage and / or the lamp current and / or the lamp power can be used. It should be noted that these mentioned lamp parameters are merely exemplary and, instead of or in addition thereto, further parameters characterizing an electric lamp can be used for the method according to the invention.

In a further advantageous embodiment of the invention, the measurement process characterizing the ambient temperature of the electric lamp determines the ratio of a measured electrical power to a luminous flux. It can be provided that this is carried out by means of a suitable light sensor. The measurement of the electrical power can be done via a microprocessor. In the alternatives explained above, it is thus not necessary to directly measure the ambient temperature of the electric lamp as a parameter itself

In a further advantageous embodiment of the invention, an ambient temperature in the vicinity of the electric lamp and / or a temperature at the electric lamp itself is measured at the measurement process characterizing the ambient temperature of the electric lamp. For this purpose, a suitable temperature sensor or a temperature sensor can be provided in a preferred manner. This temperature sensor or temperature sensor can be mounted in the electric lamp.

An inventive lighting system comprises an electric lamp and an electronic ballast. The operation of the electric lamp is adjustable by the electronic ballast. An essential idea of the invention is that the illumination system has means with which a measuring process characterizing an ambient temperature of the electric lamp can be carried out, wherein the means are designed such that at least one measured value can be generated during the measuring process, which is compared with a threshold value and when the measured value deviates from the threshold value, an electric power of the electric lamp can be changed. By means of the lighting system according to the invention, it can be ensured that electric lamps, which are arranged at relatively narrow setting locations, can also be operated in an effective and efficient manner. In particular, where relatively high ambient temperatures prevail, can be achieved with the illumination system according to the invention that an optimal operation can be adjusted. Advantageous embodiments of the method according to the invention, as far as transferable, can also be attached as advantageous embodiments of the illumination system according to the invention.

Preferred embodiment of the invention

An embodiment of the invention will be explained in more detail below. An illumination system has an electric lamp which is connected to an electronic ballast and whose operation is set via the electric ballast. In addition, the illumination system comprises a microprocessor, which is designed such that lamp parameters of the electric lamp can be detected. In this case, the device-internal microprocessor is designed such that it can measure at least one lamp parameter, in particular the lamp current and / or the lamp voltage over a presettable period of time and compares the measured characteristic of the lamp parameter with a threshold value characteristic stored in the microprocessor, referred to below as reference characteristic. This reference characteristic or threshold characteristic characterizes doing an optimal operation of the electric lamp. By the microprocessor is determined to what extent the measured characteristic deviates from the reference line, from which an excessively high ambient temperature, in which the electric lamp is detectable. Due to the time characteristic of the measured characteristic curve, a distinction can be made between extremely low and very high temperatures, since here the lamp parameters can be very similar. If an excessively high ambient temperature is detected by comparing these abovementioned characteristic curves, the microprocessor is furthermore embodied such that the electric power of the electric lamp is reduced in such a way that an approximation to an optimum system efficiency is achieved. An indicator that an approximation to the optimum system efficiency takes place can be detected, for example, by a rising lamp voltage. In addition, by such a reduction in the electrical power of the electric lamp in addition to the setting of a re-optimized system efficiency and the luminous flux of the electric lamp in turn brought to its optimum.

It should again be mentioned that, instead of measuring lamp parameters over a period of time and comparing them with a reference characteristic curve, it may also be provided that the ambient temperature can be determined via the ratio of measured power to luminous flux, with the luminous flux advantageously being effected by means of a light sensor and the measured power can be detected via a microprocessor. As a further alternative, it can be provided that the corresponding temperature or the corresponding temperatures are measured by means of a temperature sensor.

As can be seen from the table below, an electric lamp was operated with different electrical powers and to illustrate the above alternatives of the invention, both the ambient temperature, and the temperature at the lamp, and the lamp power and the lamp current and the lamp voltage measured. In addition, the relative luminous flux and the relative efficiency of the electric lamp was determined. As can be seen from the table, was achieved by the invention that even at relatively high ambient temperatures, a very high luminous flux and a very high efficiency of the electric lamp can be achieved. By way of example, the value of the relative luminous flux and the relative efficiency at an ambient temperature of 70 ° C may be mentioned. As can be seen from the table, the relative efficiency can be increased by 36% to 136% with a relatively low luminous flux reduction from a little bit 2% to 97.8%. Ambient temperature [° C] Temperature at the lamp [° C] Lamp power [W] Lamp current [mA] Lamp voltage [V] relative luminous flux [%] relative efficiency [%] 81 160 35.3 400 88.3 100 100 77 151 31.9 353 90.5 100.2 110.9 74 141 28.5 302 94.6 0.996 123.4 70 131 25.4 252 101 97.8 136 68 124 23.7 226 105 96 143 66 119 21.4 191 113 92.4 152

Claims (8)

A method of operating a lighting system comprising an electric lamp and an electronic ballast, wherein the operation of the electric lamp is adjusted by the electronic ballast,
characterized in that
a measuring operation characterizing an ambient temperature of the electric lamp is carried out, wherein during the measuring process at least one measured value is generated, which is compared with a threshold value and an electric power of the electric lamp is changed when the measured value deviates from the threshold value. Method according to claim 1,
characterized in that
When exceeding or falling below the threshold value by the measured value, the electric power of the electric lamp is reduced. Method according to claim 1 or 2,
characterized in that
in which at least one lamp parameter is measured over a predeterminable time period and is compared with a stored characteristic curve of the corresponding lamp parameter at the measurement process characterizing the ambient temperature of the electric lamp. Method according to claim 3,
characterized in that
the measuring of a characteristic curve of the at least one lamp parameter and the comparison with a stored characteristic curve of this lamp parameter is carried out by means of a microprocessor. Method according to claim 3 or 4,
characterized in that
the lamp voltage and / or the lamp current and / or the lamp power are used as lamp parameters. Method according to claim 1 or 2,
characterized in that
wherein the measuring process characterizing the ambient temperature of the electric lamp determines the ratio of a measured electrical power to a luminous flux. Method according to claim 1 or 2,
characterized in that
in which the measuring operation characterizing the ambient temperature of the electric lamp is an ambient temperature in the vicinity of the electric lamp and / or a temperature at the electric lamp is measured. Lighting system comprising an electric lamp and an electronic ballast, wherein the operation of the electric lamp is adjustable by the electronic ballast,
characterized in that
the illumination system has means with which a measuring process characterizing the ambient temperature of the electric lamp can be carried out, wherein the means are designed such that at least one measured value can be generated during the measuring process, which is compared with a threshold value and a deviation from the measured value from the threshold value electric power of the electric lamp is changeable.