The present invention relates to a lamp unit comprising a plurality of light sources and a control unit adapted to control a sequence of drive settings for the light sources based on a switching signal supplied to the lamp unit, and a corresponding method for controlling a plurality of light sources based on a switching signal.
It is known to manipulate the drive settings of a number of light sources by selecting a current drive setting by means of turning the power switch on and off in a particular manner. US 2007/0064419 A1 discloses a method for controlling the drive settings of one or more LED lights in order to provide different color states by means of a control unit and a time sensitive on-off switching method. The color states are governed by a sequence of drive settings of the LED lights. By turning the power switch off and on again within a predetermined time limit, the switching time, the next drive setting in the sequence of drive settings is set. Thus a user may switch from color state to color state by repeatedly turning the power off and on within the switching time. Within a second predetermined time limit, the synchronize time, the last completed selection of a state by the user is set. Thus, to select a desired color state the user simply leaves the system on until the end of the synchronize time. Further, the method provides storing of the present state of operation and color and color combination when switched off, and restoration of the drive settings at the time of the next time the lights are switched on.
Time sensitive on-off switching methods for controlling the light from an armature offers flexibility for the user to select different light settings in a room in a convenient way. However, when a lighting system comprises a plurality of armatures governed by such a method, there is a risk that an excessive number of color states are possible and that the current color states of the armatures may be displaced with respect to each other, e.g. when the lighting system is turned on.
It is an object of the present invention to overcome this problem, and to provide an improved method for controlling a plurality of lights based on on-off switching. The method is used in a light emitting device and a corresponding luminaire and system.
According to a first aspect of the invention, this and other objects are achieved by means of a lamp unit comprising a plurality of light sources and a control unit adapted to control a sequence of drive settings for the plurality of light sources based on a switching signal supplied to the lamp unit. The control unit is arranged such that: if the switching signal is deactivated and within a first predetermined time interval is subsequently reactivated, a subsequent drive setting of the light sources is employed, or else if the switching signal is deactivated and after a second predetermined time interval, is subsequently reactivated, a previous drive setting of the light sources is employed, or else if the switching signal is deactivated and within a predetermined first intermediate time interval, arranged between the end of the first predetermined time interval and the end of the second predetermined time interval, is subsequently reactivated, a predetermined drive setting is employed. Thus, there is provided a lamp unit which is responsive to a switching signal such that a user may advantageously select a desired drive setting of the light sources by generating alternating off- and on switching signals. The change in drive setting may be chosen to be the next drive setting or a previously selected drive setting, i.e. the user may step through the different choices or return to the a previously selected drive setting. The time interval between changes of the off-on state of the switching signal will determine the drive setting and thus the light output of the lamp. Further, by providing the first intermediate time interval, resetting of the light sources to a predetermined color or lighting state is accomplished which is advantageous when having a large number of states in the sequence of drive settings of the lamp unit. Further, when a plurality of lamp units are employed, e.g. in a luminaire or as light spots in a room, and responding to a common switching signal, it is possible that the individual lamp units are unintentionally in different states, e.g. outputs light of different colors or directions, when the power is switched on. With the present inventive concept, the possibility of resetting the lamp units to a predetermined state, e.g. to have the same color, is achieved by after switching off the lamp units turning them on within the first intermediate time interval. Hence, the lamp units are in this way synchronized with respect to each other in a certain predetermined manner.
According to an embodiment of the lamp unit, the control unit is further arranged such that if the switching signal is deactivated and within a predetermined second intermediate time interval, arranged between the end of said first predetermined time interval and the first intermediate time interval, is subsequently reactivated, a second predetermined drive setting is employed. Thus, the lamp unit may be reset to several predetermined drive settings determined by the operation of the switching signal, which is advantageous when different types of optical/lighting effects are desired. For instance the lamp unit may have more than one major functionality, e.g. one for projecting a light pattern on a wall and one for providing atmosphere, than it can be desirable to reset merely one of the functionalities.
According to an embodiment of the lamp unit, the light sources are adapted to emit light of different colors, whereby the present inventive concept advantageously provides a manner for altering the present overall color state for the lamp unit. The sequence of drive settings may be chosen to power the differently colored light sources such that different desired color combinations are achieved. The lighting of a space may in this way be altered to provide a desired atmosphere, e.g. changing from a working light to a romantic light, in a user friendly way.
According to an embodiment of the lamp unit, the switching signal is supplied by means of a power switch, or a remote control and a corresponding receiver arranged in the lamp unit. Thus, the power switch of a luminaire in which the lamp unit is mounted, or a remote control may be used to provide the switching signal. In the later case, the lamp unit or a luminaire in which the lamp unit is mounted is further arranged with means for receiving such remote control signal.
According to an embodiment of the lamp unit, at least one drive setting of the light sources comprises a predetermined sequence of drive settings. Thus, the specific drive setting may itself contain a sequence of drive settings such that a predetermined alternating light pattern is achieved for that drive setting, e.g. a blinking pattern, a sequence of colors etc.
According to an embodiment of the lamp unit, the light sources comprise light emitting diodes, LEDs, which is advantageous.
According to an embodiment of the lamp unit, the LEDs are multi LED diodes, e.g. RGB or RGBW.
According to an embodiment of the lamp unit, the lamp unit further comprises a lamp base which is arranged to be fitted in a lamp socket. The lamp unit may for instance to be retrofitted in an existing light fitting or luminaire having such a lamp socket. Thus, the lamp unit according to the present invention may advantageously be used for replacing an incandescent light source or for fitting into a light fixture normally used for incandescent light sources, such as a filamented light bulb, a halogen lamp etc. This is advantageous as a user may conveniently replace expensive and inefficient incandescent light sources in existing luminaires with lamp units in accordance with the present inventive concept. Due to the integrated control unit the functionality of the lamp unit is advantageously applicable in any luminaire into which lamp socket the lamp unit is adapted to fit. The standard type lamp socket may be e.g. a traditional screw socket or a bayonet socket. In the former case, the lamp base is a traditional screw lamp base with suitable threads.
According to another aspect of the invention, there is provided a luminaire comprising at least one lamp unit according to the present inventive concept. When employing a number of lamp units according to the present inventive concept, it is of great importance to be able to reset all lamp units to a predetermined drive setting, which is advantageously achieved with the present inventive concept.
According to an embodiment of the luminaire, a single power switch comprised in the luminaire provides the switching signal to the at least one lamp unit.
According to an embodiment the luminaire further comprises a common control unit arranged for controlling a sequence of drive settings for the at least one lamp unit based on the switching signal. Thus, the switching for the individual lamp units may be further controlled by a common control unit.
According to another aspect of the invention, there is provided a lighting system comprising a plurality of lamp units or a plurality of luminaires. The switching signal is supplied by means of a power switch, or a remote control and at least one corresponding receiver arranged at the lamp units or luminaires.
According to another aspect of the invention, there is provided a method for controlling a plurality of light sources based on a switching signal comprising:
providing a sequence of drive settings for the light sources from which sequence a present drive setting for the light sources is set;
detecting a deactivation of the switching signal;
measuring the elapsed time between the deactivation and a subsequent activation of the switching signal; and
if the elapsed time is less than a first predetermined time interval:
setting a subsequent drive setting as present drive setting; or
if the elapsed time is more than a second predetermined time interval:
keeping the present drive setting: or
if the elapsed time is within a first intermediate time interval arranged between the end of the first predetermined time interval and the end of the second predetermined time interval:
setting the present drive setting to a predetermined drive setting.
According to an embodiment the method further comprises that if the elapsed time is within a second intermediate time interval arranged between the end of the first predetermined time interval and the first intermediate time interval: setting the present drive setting to a second predetermined drive setting. The method may comprise further intermediate time intervals witch respective predetermined drive settings depending on the specific application.
It is noted that the invention relates to all possible combinations of features recited in the claims.
This and other aspects of the present invention will now be described in more detail, with reference to the appended drawings showing embodiment(s) of the invention.
a and b illustrate predetermined time periods according to the present inventive concept;
Embodiments according to the present inventive concept will now be described more fully hereinafter with reference to the accompanying drawings, in which certain embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided by way of example so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.
A block diagram illustrating the basic configuration of an embodiment of a lamp unit 100 according to the present invention is illustrated in
The light sources 120a-e are in communication with a control unit 110 which controls drive settings, Sa-e, of the light sources 120a-e. The control unit 110 is further arranged to receive a switching signal, Sin, which here is provided via a power switch 105. The power switch may be a manual power switch operated by a user, or a user operated remote control which sends a switching signal which is received by a receiver (not shown) arranged in the lamp unit. Further, a switching signal may be provided electrically from a lighting system designed to control the lighting in a room, building or area.
Drive settings Sa-e are settings which in a controlled manner provide power to the respective light source 120a-e. A drive setting may be static or dynamic (changing in time) and typically concerns voltage levels, current levels, or the frequency of the drive signal. The control unit 110 is further arranged to provide a sequence of drive settings for the light sources, such that several states of drive settings can be provided to the light sources. The drive settings may be chosen to provide e.g. different static or dynamic patterns of powered versus non-powered light sources, different lighting directions when utilizing light sources producing directional light, different colors from the lamp unit, or any combination of the mentioned states. The switching signal is utilized to switch the state of the drive setting of the lamp unit 100.
The control unit 110 is arranged to control the present state of the sequence of drive settings based on the switching signal.
To continue, if the switching signal is reactivated after a second predetermined time interval t2 has elapsed, which time interval in this illustrative example is 12 s, the drive setting is set to a previous state. That is, if the lamp unit is turned off a sufficient time and then turned on again, the last used drive setting is employed.
An intermediate time interval t3 is arranged between the end of the first time interval t1 and the end of the second interval t2. If the switching signal is reactivated within this intermediate time interval, which here occurs between 7 and 12 seconds after the lamp unit was switched off, the drive setting is set to a predetermined drive setting, which herein after is referred to as the reset state.
b illustrates how the timeline for the switching behavior may contain more than one intermediate time interval, i.e. a time interval arranged between the end of the first time interval t1 and the end of the second interval t2. Here a second intermediate time interval t4 is arranged but the number of intermediate time intervals is preferably set depending on the specific lamp unit and corresponding lighting application. Depending on the application, the time intervals may also overlap.
According to an embodiment of the lamp unit (not shown), at least one of the plurality of light sources is a directional light source. Directional light sources are light sources adapted to emit light generally in a specific direction or having a limited output angle, for instance top-emitters, in contrast to omni-directional emitters. A lamp unit may for instance be arranged to emit white light in all directions by means of an omni-directional light source, while emitting blue light in an upwards direction by means of a top-emitter light source. The drive setting sequence for controlling the light of such an exemplifying embodiment, may comprise white light source on-blue light source off, white light source off-blue light source on, white light source on-blue light source on.
In
The timeline switching behavior as illustrated in
In
According to an embodiment of the lamp unit, at least one of the plurality of light sources emits light in a direction separate from light emitting direction of the remaining plurality of light sources. Several light emitting directions of light from the lamp unit, which light in some embodiments also emit light of different colors, and light sources that are set according to a sequence of drive settings allows for a high degree of flexibility of the lighting achieved by the lamp unit. This does not only apply to color choice but further the functionality of the light is easily altered, e.g. between a spotlighting- or background lighting functionality, or a combination of both.
In an exemplifying embodiment of a lamp unit according to the present inventive concept, the lamp unit is designed to be employed in a bed reading lamp. The lamp unit (not shown) is arranged such that it can provide task light (color is e.g. amber) or atmosphere light (color is white), or both task- and atmosphere light simultaneously. The bed reading lamp further has a common power switch to which the lamp unit is arranged to respond. When the bed reading lamp is switched off and subsequently turned on again, the time elapsed between the deactivation and the activation of the switching signal, top, will provide different functionalities of the reading lamp in accordance with the following:
top<5 s→light is switched to next color/state.
5<top<7 s→bed reading light function is selected. In this state the light output will be is dimmed (from 100% light output to 0% light output).
7<top<13 sec.→the lamp unit is reset to white light.
top>13 sec.→light is switched to its previous color/state. Thus depending on the required functionality, additional time intervals may be introduced for the lamp unit. Further, if a plurality of lamp units is arranged in a common luminaire or a lighting system, the individual time intervals for the lamp units may differ such that for the user, the number of active time intervals may be perceived as higher than it is for the individual lamp units.
The person skilled in the art realizes that the present invention by no means is limited to the preferred embodiments described above. On the contrary, many modifications and variations are possible within the scope of the appended claims.
Number | Date | Country | Kind |
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09171036 | Sep 2009 | EP | regional |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2010/054071 | 9/9/2010 | WO | 00 | 2/28/2012 |
Publishing Document | Publishing Date | Country | Kind |
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WO2011/036595 | 3/31/2011 | WO | A |
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