This invention relates to a LED light source that is suitable to be supplied by the mains and to a lamp comprising such a LED light source.
A very cheap way of supplying current to a LED string is by connecting the LED string to the output terminals of a rectifier. During operation the input terminals of the rectifier are connected to the mains supply and at the output terminals the rectified mains is present across the LED string so that a current flows through the LED string.
In the direct vicinity of the zero crossings of the mains voltage, the voltage across the LED string is too low to cause a current to flow through the LED string. As a consequence the current through the LED string is interrupted with a frequency that equals twice the mains frequency. In steady state operation no flickering is perceived, but illuminating a moving object creates stroboscopic artefacts.
These stroboscopic artefacts can be suppressed to a large extent, in case a LED light source is used that comprises two LED strings and a phase shift is realized between the currents in the first LED string and in the second LED string. Such a phase shift can be realized by connecting each of the LED strings to output terminals of a different rectifier. A first rectifier is for instance connected directly to the mains supply or via components not causing a phase shift and a second rectifier is for instance connected to the mains via a reactive component causing a phase shift such as a capacitive element or an inductive element. Output terminals of the first rectifier are connected to the first LED string and output terminals of the second rectifier are connected to the second LED string. When the current through one of the LED strings is zero, the current through the other LED string is not, due to the phase shift. As a consequence the stroboscopic artefacts are suppressed to a large extent. Preferably, the phase shift between the current through the first LED string and the current through the second LED string is approximately 90 degrees.
It is possible to suppress the stroboscopic artefacts also in case the LED light source comprises three or more LED strings and the current through the subsequent LED strings is shifted approximately 180/n degrees, wherein n is the number of LED strings. In order to realize this phase shift the LED light source must comprise at least a third rectifier and a second reactive element.
The duty cycle of the current through a LED string (i. e. the ratio of the time lapse during which the LED string conducts a current and the duration of half a period of the mains supply) increases when the voltage drop across the LED string is decreased. This can be done by placing part of the LEDs comprised in the LED string in parallel. In case the voltage drop across the LED string supplied by the reactive current is lower than the voltage drop across the other LED string, the phase shift between the currents through the LED strings is increased.
The light source described here-above is very suitable for use in a LED lamp comprising a lamp vessel, electric contacts for connection to a supply source, a heat sink that is at least partly comprised in the lamp vessel, the space surrounded by the lamp vessel being divided into a number of compartments, each of which is at least in part confined by a wall of the lamp vessel and the heat sink. The LEDs comprised in each of the LED strings of the LED light source are connected to the heat sink and are distributed over at least part of the compartments.
In a preferred embodiment, the LED lamp comprises a lamp cap, a lamp bulb connected to the lamp cap and divided into two or more parts, a heat sink present between the parts of the lamp bulb and dividing a space within the lamp into a number of compartments equal to the number of parts of the lamp bulb, wherein the LEDs comprised in each of the LED strings are connected to the heat sink and are evenly distributed over the compartments.
Embodiments of the invention will be described in more detail making use of a drawing. In the drawing
In
The operation of the LED light source shown in
When the input terminals K1 and K2 are connected to poles of a mains supply, a first sinusoidally shaped low frequency AC voltage supplied by this mains supply is present at the input terminals of the first rectifier bridge Rect1 and is rectified into a first periodical DC voltage that is present between the output terminals of the first rectifier bridge Rect1 and thus across the first LED string LS1. A second sinusoidally shaped low frequency AC voltage is present at the input terminals of the second rectifier bridge Rect1 and is rectified into a second periodical DC voltage that is present between the output terminals of the second rectifier bridge Rect2 and thus across the second LED string LS2. The second sinusoidally shaped AC voltage is supplied by the mains supply via the capacitor C and is therefore phase shifted with respect to the first sinusoidally shaped AC voltage. As a consequence the second periodical DC voltage is also phase shifted with respect to the first periodical DC voltage. When the momentary amplitude of the first periodical DC voltage is too low to cause a current to flow through the first LED string LS1, due to the phase shift the momentary amplitude of the second periodical DC voltage is high enough to cause a current to flow through the second LED string LS2. As a consequence, at any moment in time one of the LED strings is always carrying a current and thus generating light. Since the LEDs of each LED string are distributed over the compartments Comp1 and Comp2, at any moment in time light is generated in each compartment. For this reason stroboscopic effects are prevented.
In
Of course it is possible to choose a lamp vessel with a shape that differs from that of an incandescent lamp. It is also possible to divide the space within the lamp vessel into three or more compartments that are at least in part confined by the heatsink and the wall of the lamp vessel. The lamp may be equipped with electrical contacts that differ from a lamp cap or lamp fitting. Depending on the practical use of the lamp, it may be desirable that the light output of each compartment comprising LEDs is approximately identical. In this case the LEDs comprised in the two or more LED strings need to be distributed evenly over at least part of the compartments. In some applications it can be desirable that different compartments have different light outputs. This can be realized by unevenly distributing the LEDs comprised in the two or more LED strings over at least part of the compartments.
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Number | Date | Country | |
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20150159814 A1 | Jun 2015 | US |
Number | Date | Country | |
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Parent | 13139051 | US | |
Child | 14168039 | US |