The present disclosure relates to a Light Emitting Diode, LED, based lighting device for emitting a particular colored light, wherein said LED based lighting device comprises at least two LED channels, wherein each LED channel is arranged to emit a particular colored light.
Lighting devices have been developed that make use of Light Emitting Diodes, LEDs, for a variety of lighting applications. Owing to their long lifetime and high energy efficiency, LED lamps are nowadays also designed for replacing traditional fluorescent lamps, i.e. for retrofit applications. For such an application, a retrofit LED lamp is typically adapted to fit into the socket of the respective lamp fixture to be retrofitted. Moreover, since the maintenance of a lamp is typically conducted by a user, the retrofit LED lamp should ideally be readily operational with any type of suitable fixture without the need for re-wiring the fixture.
The present disclosure is related to multi-channel LED based lighting devices. Each channel may comprise one or a plurality of LED's that are capable of emitting light at a particular color. For example a first channel may be directed to emit red colored light. A second channel may be directed to emit green colored light and a third channel may be directed to emit blue colored light.
More specifically, the present disclosure may especially be applicable for LED based lighting devices having two LED channels, wherein a first LED channel is directed to emit warm white light and a second LEC channel is directed to emit cool white light.
Often, such a LED based lighting device is provided with a current source, wherein the Led based lighting device comprises a current splitter for splitting the current over the different channels.
More specifically, typically, there is a controller available having a plurality of LED channels, wherein each channel is arranged with a switch, wherein each of the switches is thus arranged to enable a particular corresponding channel. For example, a first switch may enable a red channel, a second switch may enable a green channel, a third switch may enable a blue channel, etc.
The switches may be provided width Pulse Width Modulation, PWM, signals having particular duty cycles. The frequency of the PWM signals should be chosen such that it exceeds the refresh rates of the human eye. This would prevent a user from seeing any flickering. By controlling the duty cycle, the contribution of each of the channels to the total amount of light emitted can be controlled, and thus also the color of the light that is emitted by the LED based lighting device.
It is an object of the present disclosure to provide for a LED based lighting device which is arranged to emit a particular color light and which is arranged to ensure color consistency of said particular color light over time.
In a first aspect, there is provided a Light Emitting Diode, LED, based lighting device arranged to emit colored light, wherein said LED based lighting device comprises:
The controller is further arranged for correcting said color ratio based on aging of said at least one LED in said first LED channel and on said at least one LED in said second LED channel, thereby ensuring color consistency of said particular color of said LED based lighting device over time.
It was the insight of the inventors that different types of LED's may deteriorate differently over time. For example, warm white colored LED's may deteriorate more quickly over time compared to cool white colored LED's, or vice versa. The above may not only affect the intensity of the light that is emitted by the LED based lighting device but also the color of the LED based lighting device. The present disclosure is directed to the latter.
This may be explained as follow. Typically, the controller may use a certain setpoint for a particular color light. Such a setpoint determines the ratio between the different LED channels. For example, the first LED channel may be active 60% of the time, and the second LED channel may be active 75% of the time. The combination of both LED channels result in a particular light being emitted. The inventors have found that the LED's in the first channel may deteriorate over time differently compared to the LED's in the second channel. As such, also the ratio, i.e. 60% versus 75%, is to be corrected based on that particular deterioration effects.
In accordance with the present disclosure, the above is summarized as being the aging of the LED's. Aging of the LED's may thus result in less light being emitted, or even a shift of color of the light being emitted. Both of which may be taken into account when correcting for the ratio.
Following the above, the color consistency of the LED based lighting device is thus improved by correcting the color ratio based on the aging of the LED's.
In an example, the controller comprises:
The above described example covers, for example, a method in which the controller corrects the color ratio based on the first color measure and the second color measure, wherein these measures indicate the deterioration of the corresponding at least one LED over time. The time does not necessarily be related to the time in which the LED's are actually emitting light, i.e. the operating time or burning time of the LED's.
A rough estimation of the deterioration of the LED's may be based on the time that has lapsed, irrespective of the amount of burning hours of the LED's in that particular lapsed time.
In another example, the first color measure and second color measure indicate a deterioration of said corresponding at least one LED in said corresponding LED channel over time, wherein said time represents time during which said corresponding LED channel is activated,
The above described example is directed to the concept that the actual burning hours, i.e. operating hours, of the LED's are tracked to make a more accurate estimation of the deterioration of the LED's. It was found that the deterioration of the LED's is mainly caused by the amount of operating hours of the LED's itself.
In such a situation, the controller may thus keep track of the amount of time that each of the LED channels are activated to obtain a measure for the operating time of each of the LED channels. The color ratio may then be corrected based on the operating time of each of the LED channels.
In another example,
The example described above is directed to an LED based lighting device which is arranged to emit white colored light. It is noted that the color temperature, expressed on the Kelvin Scale, K, is the color appearance of the light produced by the LED based lighting device.
It is to be appreciated that, for example, the first LED channel is arranged to emit light having a color temperature of ˜2500K and the second LED channel may be arranged to emit light having a color temperature of ˜6500K. By having a color ratio in place for the first LED channel and the second LED channel, any composite colored light might be obtained between ˜2500K and ˜6500K. If the ratio indicates that the first LED channel is dominant over the second LED channel, the temperature of the composite colored light might shift towards the ˜2500K. If the ratio indicates that the second LED channel is dominant over the first LED channel, the temperature of the composite colored light might shift towards ˜6500K.
In a further example, each of said LED channels comprises a switch for activating said corresponding LED channel, and wherein said controller is arranged for controlling each of said switches in said LED channels based on said color ratio.
The switch may, for example, be a transistor, a Field Effect Transistor, FET, a relay or anything alike.
In yet another example, the controller is arranged for controlling each of said switches using a Pulse Width Modulation, PWM, signal.
In a second aspect, there is provided a method of operating an LED based lighting device in accordance with any of the previous claims, wherein said method comprises the steps of:
It is noted that the advantages and definitions as disclosed with respect to the embodiments of the first aspect of the invention also correspond to the embodiments of the second aspect of the invention, being the method of operating a retrofit Light Emitting Diode, LED, based lighting device.
In an example, the controller comprises a first color measure for indicating a deterioration of said at least one LED in said first LED channel over time and a second color measure for indicating a deterioration of said at least one LED in said second channel over time, wherein said step of correcting comprises:
In a further example, the first color measure and second color measure indicate a deterioration of said corresponding at least one LED in said corresponding LED channel over time, wherein said time represents time during which said corresponding LED channel is activated, wherein said method further comprises the steps of:
In another example:
In a further example, each of said LED channels comprises a switch for activating said corresponding LED channel, and wherein said step of correcting comprises:
In yet another example, the step of controlling comprises:
In a further example, said aging of said at least one LED is based on any of:
The inventors have found that the LED's may also show a color shift over time. This is, for example, caused by the discoloration of the silver mirror and phosphor degeneration. This may also be caused by degeneration of package materials.
In a third aspect, there is provided a computer program product comprising a computer readable medium having instructions stored there on which, when executed by a controller of a Light Emitting Diode, LED, based lighting device, cause said LED based lighting device to implement a method in accordance with any of the examples as provided above.
These and other aspects of the invention will be apparent from and elucidated with reference to the embodiment(s) described hereinafter.
The LED current splitter may be comprised in a multi-channel Light Emitting Diode, LED, based lighting device. Multi-channel indicates that the LED based lighting device has a plurality of channels, wherein each channel is directed to LED's emitting a particular color. For example, a first channel may be directed to emit red colored light, a second channel may be directed to emit green colored light and a third channel may be directed to emit blue colored light.
In a typical example, a first channel may be directed to emitting Warm White colored light, a second channel may be directed to emitting Cool White colored light, and a third channel may be directed to emitting a further White colored light.
The LED current splitter of
The color ratio may thus define the amount of time that each of the switches is activated with respect to one another. The color ratio may thus mix the colors emitted by each of the channels.
A current source 2 is indicated for providing the LED current to the LED current splitter. It is noted that the current 2 source may be implemented in a variety of ways. For example, the current source 2 may be implemented as an LED driver.
The inventors have noted that the LED's in the first channel 3 may have different aging properties compared to the LED's in the second channel 4 and the LED's in the third channel 5. The LED's in the second channel 4 may also have different aging properties compared to the LED's in the third channel 5.
Aging may, for example, be directed to the amount of Lumens emitted by the respective LED over time. The amount of lumens may decrease over time due to the aging factors.
Another possibility is that a color shift occurs over time. This is also encompassed, in accordance with the present disclosure, by the aging process.
A controller may be provided which is then arranged for correcting said color ratio based on aging of said at least one LED in said first LED channel and on said at least one LED in said second LED channel, thereby ensuring color consistency of said particular color of said LED based lighting device over time.
For example, in order to emit a particular color light, the switch as indicated with reference numeral 6 may have a 50% duty cycle and the switch as indicated with reference numeral 7 may also have a 50% duty cycle. In other words, the color ratio is 1:1 as each of the switches is activated for the same amount of time. Due to the different properties of the LED's with reference numerals 6 and 7, and having the color consistency in mind, the color ratio may be adapted, over time, to ensure the color consistency. The ratio may, for example, be amended to 1:1.02 or anything alike.
The aging properties of each of the LED's may be stored in the LED based lighting device itself, for example in a memory coupled to the controller. The controller may keep track of the amount of burning hours of each of the LED's and may calculate the color ratio in an ongoing process.
Here, the vertical axis 23 denoted the amount of Lumen, in percentage, compared to the initial amount of Lumen emitted by the respective LED. The horizontal axis 24 denoted the actual burning hours of the respective LED.
It is shown that a first LED, for example the one as indicated with reference numeral 21, degrades differently over time compared to the second LED, for example the one as indicated with reference numeral 22.
The method 31 is directed to the operating an LED based lighting device in accordance with any of the previous claims, wherein said method comprises the steps of:
Other variations to the disclosed embodiments can be understood and effected by those skilled in the art in practicing the claimed invention, from a study of the drawings, the disclosure, and the appended claims, In the claims, the word “Comprising” does not exclude other elements or steps, and the indefinite article “a” or “an” does not exclude a plurality. A single processor or other unit may fulfil the functions of several items recited in the claims. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage. A computer program may be stored/distributed on a suitable medium, such as an optical storage medium or a solid-state medium supplied together with or as part of other hardware, but may also be distributed in other forms, such as via the Internet or other wired or wireless telecommunication systems. Any reference signs in the claims should not be construed as limiting the scope thereof.
Number | Date | Country | Kind |
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19201231.8 | Oct 2019 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2020/077106 | 9/28/2020 | WO |