• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Color-adjustable LED module (1) comprising: - an LED array (2) comprising at least two LED chains, each of which has at least one LED, preferably white, the LED chains being connected in an anti-parallel manner and the LED chains emit different spectra, preferably white spectra with different color temperatures, and - an LED driver (LD ") that drives the LED array and is configured to output a DC voltage that is switched between two polarities, wherein the relative switch-on duration of the polarities, ie the ratio of the time span of a first polarity in comparison to the time span of a second polarity, can be set.
    公开号:AT17197U1
    申请号:TGM9003/2016U
    申请日:2016-01-08
    公开日:2021-09-15
    发明作者:
    申请人:Tridonic Jennersdorf Gmbh;
    IPC主号:
    专利说明:

    description
    COLOR-ADJUSTABLE LED MODULE WITH ANTI-PARALLEL LED CHAINS
    The invention relates to a color-tunable module and in particular to an LED module that allows color and / or color temperature adjustment.
    Color or color temperature matching means that the LED module has a number of light sources and in particular at least two LED chains, each having at least one LED with a different color or color temperature and in particular light with different spectra, preferably white spectra with different Color temperatures, and enables the color and / or color temperature of the light emitted by the module to be set to a mixed color or color temperature.
    In addition, the module can allow dimming, ie a reduction in the brightness of the emitted light, which is typically referred to as percentages, for example a dimming of 50% means a reduction in the emitted brightness to 50% and a dimming of 95 % refers to the fact that the brightness is reduced to 5% of the maximum brightness.
    The invention thus provides a color tunable module according to the independent claims. Further aspects of the invention are the subject of the dependent claims.
    In a first aspect there is provided a color tunable LED module comprising: an LED array comprising at least two LED strings, each of which has at least one preferably white LED, the LED strings in an anti-parallel manner are connected and the LED chains emit different spectra, preferably white spectra with different color temperatures, and an LED driver that drives the LED array and is configured to output a DC voltage that is switched between two polarities, the relative Switch-on duration of the polarities, ie the ratio of the time span of a first polarity compared to the time span of a second polarity, can be set.
    The module can have a control unit which is suitable to monitor a voltage and / or a current and a modulation of the voltage and / or the current to the module or an AC-DC converter (rectified by this) is delivered.
    The control unit can determine a color adjustment signal and / or a color temperature adjustment signal and / or a dimming signal from the detected modulation.
    The control unit can output at least one control signal to the LED driver. You can vary the relative switch-on duration of the at least one polarity based on the determined tuning / dimming signal.
    The LED driver can change the polarities and their duty cycle based on the at least one control signal.
    The module is configured to receive tuning and / or dimming signals only via supply lines. The supply lines are used to supply the module electrically and to connect the module directly or indirectly to an energy source, e.g. the power grid.
    An LED chain can have a linear regulator and / or at least one protective diode, preferably a Schottky diode.
    The LED chains can only be connected to the driver circuit by two wires.
    The LED driver can determine the duty cycle of the polarities based on the tuning signal.
    The LED driver can have an inverter. The LED driver can have a first LED
    Drive a chain based on the at least one control signal and a second LED chain based on the inverted at least one control signal.
    The LED driver can supply at least the first LED chain when the LED driver switches to one polarity. The LED driver can supply at least the second LED chain when the LED driver switches to the opposite polarity.
    The LED driver can dimming the LED chains by reducing the on time of the relative duty cycle of the polarities that are applied to the LED array. The on-time set for voting can be reduced according to a dimming signal.
    The control unit can be part of the AC-DC converter.
    The module can be a flexible band, a strip, a chain or a point-like device.
    The invention will now also be described with reference to the figures.
    Fig. 1 shows a schematic arrangement according to the invention.
    Fig. 2 shows two examples of an LED driver with LED chains.
    Fig. 3 shows another example of an LED driver with LED chains.
    Fig. 4 shows yet another example of an LED driver with LED chains.
    Fig. 5 shows, by way of example, the color matching according to the invention.
    Fig. 6 shows an example of color matching and dimming according to the invention.
    In particular, the color matching or dimming according to the invention is achieved by signals that are modulated onto the electrical supply line of the LED module without requiring an additional connection for supplying the tuning and / or dimming signals.
    The principles of the invention will now be described with reference to FIG.
    1 shows an LED module 1 according to the invention, which is supplied by an alternating voltage ACin, which is converted into a direct voltage by an alternating current / direct current converter. The module 1 also shows an LED arrangement 2 with a number of interwoven LEDs which represent at least two LED chains which are connected in a parallel and anti-parallel manner. In Figure 1, every other LED belongs to an LED chain, and based on the polarity of the voltage supplied to the LED array 2, only half of the LEDs are activated. Each LED chain can have a current regulator and / or a protective diode in order to control a current through the associated LED chain, in particular to a nominal value.
    Figure 1 also shows a bridge or LED driver used to switch the polarity of the DC voltage Vae supplied by the AC-DC converter. Thus, color temperature or color tuning, as well as dimming, can be effected by controlling the duty cycle of the polarity applied to each LED string.
    Consequently, in an extreme case of the color temperature adjustment, only one LED chain is driven (the duty cycle with respect to one polarity is 100%) in order to adjust the LED arrangement 2 to the color / color temperature of this one LED chain. The LED chains supplied by the LED driver can contain the same number of LEDs.
    Switching the polarity can also be understood as a PWM modulation of a signal, when the PWM signal is high, one LED is supplied and when the PWM signal is low, a second LED chain is supplied. Of course, two more LED chains can be used instead of one LED chain, and consequently the LED driver can supply at least two groups of LED chains, with one LED chain group being active with one polarity,
    while the other group of LED chains is active when the opposite polarity is active.
    The invention is particularly advantageous because it allows the use of a standard LED driver with a component that controls the LED driver. This can be a control unit as shown in FIG. 1. However, the control unit can also be part of the AC-DC converter. This is indicated by the dotted box 10 in FIG. 1. In particular, when a tuning and / or dimming signal is modulated on the electrical supply lines, the AC / DC converter can modulate the DC output voltage Vac MO and can consequently at least one control signal, for example a PWM-modulated signal, to the LED driver / bridge deliver. The control signal can be used to control the polarity switching performed by the LED driver. In particular, no separate control unit is required since the AC / DC converter can detect the modulation of the electrical supply and controls the bridge / LED driver. However, the control unit can also output control signals to the LED driver, which can be in the form of PWM-modulated signals.
    For example, the lighting means / LED chains of the LED arrangement can have color coordinates A and B (which are indicated as gray and black LEDs in FIG. 1). These LED chains are connected in an anti-parallel manner. The LED driver changes or inverts the polarity of the supply voltage supplied to the LED chains periodically in accordance with a predetermined control signal which is supplied by the LED driver, and consequently controls the relative duty cycle of the LED chain A and the LED chain B, to set a desired color temperature or color.
    A dimming signal can also be applied by simply calculating the on-time of the voltage or current supplied to a / each LED string, ie the voltage / current supplied to the LED strings is not divided in such a way that the sum of the total tein time of the LED chains is always 100%. An LED chain can also be switched off for some time to reduce the brightness of the light emitted. This means that the on-time for each LED chain is reduced when the dimming should be carried out.
    The LED driver can be voltage or current that is controlled and can accept PWM and various voltage / current level signals. If the LED driver is controlled by PWM signals, the LED driver can synchronize the polarization to the PWM signal. In particular, the polarity can have a significantly higher frequency than the input PWM frequency, so that the dimming of the LED chains does not affect the color definition.
    2a and 2b show exemplary structures of LED drivers LD, LD ‘according to the invention. 2a shows an LED driver LD with an FET or MOSFET transistor bridge circuit in order to switch the supply voltage Vin periodically to the LED chains with different polarity as a function of the control signals PWM1 and PWM2. For example, in the case where the control signal PWM1 is high, diagonal switches MI and M3 could be activated and the polarity could be switched to switch Vin onto the LED string with diodes D1 through D7. On the other hand, if the control signal PWM2 is high, the diagonal switches M2 and M3 could be activated and the polarity could be switched to switch Vin onto the LED string with diodes D10 through D16. Of course, only one diagonal should be active at the same time.
    Fig. 2B shows a similar LED driver, LD‘-, arrangement in which the FET transistors M1 to M4 are replaced by bipolar transistors Q1 to Q4, which in turn are controlled by signals PWM1 and PWM2.
    In Fig. 3, the LED driver LD of Fig. 2a is shown supplying two LED chains 5, 6, which in turn are arranged in an anti-parallel manner, which means that depending on the polarity used and when applied the same common supply wires 3, 4 only one of the LED chains 5, 6 is active. Fig. 3 now shows that each LED chain one
    Optional protective diode D19 / D20 and / or a linear regulator Q2, R3, D17, D18 / Q1, R1, D8, D9 can be included to adjust the current through the LED chains 5, 6.
    4 shows an LED driver LD ″ which is only controlled by a single control signal PWM. The LED driver LD “contains an inverter A1, which inverts the control signal PWM. If the control signal is consequently high, for example, and the bridge diagonal M1, M4 is activated, the bridge diagonal M2, M3 is deactivated at the same time. Hence there is no need to apply two control signals. This means that one diagonal of the full bridge is activated when the control signal reaches a value, for example high, while the other diagonal of the bridge is active when the same control signal reaches its other level, for example low. As a result, the LED chain is active when the other LED chain is not active.
    The LED module 1 is preferably a flexible strip and is supplied with a 24 volt DC voltage, which can be produced by the AC / DC converter shown in FIG. The current regulators can be placed anywhere in each of the LED chains 5, 6 and can be a VCR (voltage controlled resistor) with an optional current setting resistor. The current applied to the LED chains 5, 6 is preferably set such that the light output in lumens (Im) is the same for the / all temperatures of the LED chains. The protective diode for an LED chain 5, 6 can preferably be a Schottky diode.
    Since the inventive arrangement allows a very compact construction of the required circuit arrangement, the invention can be used in particular when the color matching is required and the space in an application is limited. The module can therefore be implemented in the form of strips, chains or dots.
    For a uniform lumen output over the tuning range, for example the colors and / or color temperatures of the LED chains 5, 6, the number of LEDs can be higher and in particular at least twice the number of LED components in a module without color matching would be needed. However, the invention no longer requires LEDs. Fig. 5 shows an example of how the polarity change can be used to adjust the color or color temperature. For example, an LED chain can have a color temperature of 2700 ° Kelvin and an LED chain a color temperature of 6000 ° Kelvin. The dashed light above indicates activation of the 2700 ° Kelvin chain, which means that the LED chain is active 100% of the time and consequently the polarity is only switched to power an LED chain (which means that only one diagonal of the LED driver is active). The 6000 ° Kelvin LED chain is off.
    On the other hand, if the LED array 2 should be tuned to 6000 ° Kelvin, only the 6000 ° Kelvin chain should be lit and the polarity must be controlled in order to power only that chain, which means that the 2700 ° Kelvin chain is not being supplied with power. This is shown by the solid line labeled 6000K.
    If an intermediate temperature should be set, the DC voltage is switched between two polarities and the duty cycle of the polarities, i.e. the ratio of the period of the first polarity compared to the period of the second opposite polarity, is set. In other words, both LED chains are supplied with power for a certain time, the tein time.
    If, for example, 4500 ° Kelvin should be set in FIG. 5 (curve labeled 4500 K), the LED chains can be activated in an alternating manner, which means that the on time in the example shown for each LED chain is set to around 50%. This means that the duty cycle for each polarity is around 50%. This means that the ten time for an LED chain is around 50%. Consequently, the tein time for the 2700 ° Kelvin LED chain (dashed signal high (h)) is almost the same as the tein time of the 6000 ° Kelvin chain (solid signal high (h)) with the corresponding thousand -Time (signals low (1)).
    If, however, a different temperature, for example 5000 ° Kelvin (5000 K line), should be set, the duty cycle changes and, for example, the tein time of the 6000 ° Kelvin chain is longer than that 2700 ° Kelvin chain.
    If two PWM signals are used to control the LED driver, an LED chain can be activated in accordance with the first control signal PWM1 and the second LED chain can be activated in accordance with the second control signal PWM2.
    If, in addition, the dimming should be performed, the on-time for each LED string activation, as shown in FIG. 6, can be reduced.
    Even if the color temperature of 2700 ° -Kelvin should be set, the 2700 ° -Kelvin LED chain is not supplied with a tein time of 50%, for example, if a dimming level of 50% should be set and the color temperature of 2700 ° Kelvin should be emitted (the 6000 ° Kelvin chain is off). The same is the case if the light temperature of 6000 ° Kelvin should be set at a dimming level of 50%. The tein time of the 6000 ° Kelvin LED chain is only about half the tein time that is specified for the emission with full brightness (see Fig. 5) (in this case the 2700 ° Kelvin chain is off ). The tein time of the 6000 ° Kelvin LED chain is denoted by teinsoook in FIGS. 5 and 6, while the tein time of the 2700 ° KelvinLED chain is denoted by teinzz0ook.
    Briefly, if the dimming should be carried out, the on time, i.e. the time that an LED chain is switched on, is reduced according to the dimming level. While the on time for the LED chains is determined and set for tuning purposes according to the desired color / color temperature, in the case of dimming, the on time t on is reduced in accordance with the desired dimming value. Therefore, the ratio of the time span of a first polarity compared to the time span of a second opposite polarity is set not only on the basis of the tuning, but also on the basis of dimming commands. In particular, the switch-on time tein determined for the color matching is reduced as a function of the dimming that should be carried out. This can lead to phases in which all chains are off. However, the polarity switching on the LED chains is typically carried out at frequencies above 100 Hz.
    If an intermediate color temperature should be established, the polarity applied to the LED array is changed as before, but there are gaps in the operation of each LED string to allow the required dimming. As a result, as shown for the color temperatures 4500 ° Kelvin and 5000 ° Kelvin, the on-time is reduced for both LED chains in order to realize the color matching as well as the dimming.
    It should be understood that all other dimming levels can of course be set and that the on time of the signals applied to each LED chain can be adjusted accordingly. The signals shown in Figures 5 and 6 are only intended to accurately describe the principle of the invention.
    It should also be understood that the values used in the examples are used for illustrative purposes only. Other colors and color temperatures can be used, and other color temperatures can be coordinated.
    权利要求:
    Claims (10)
    [1]
    1. Color-adjustable LED module (1), which has:
    - An LED arrangement (2) which has at least two LED chains, each of which has at least one preferably white LED, the LED chains being connected in an anti-parallel manner and the LED chains having different spectra, preferably white spectra different color temperature, emit, and
    - an LED driver (LD “) that drives the LED array and is configured to output a DC voltage that is switched between two polarities, the relative duty cycle of the polarities, ie the ratio of the time span of a first polarity compared to the time span of a second polarity, is adjustable.
    [2]
    2. Color-adjustable LED module (1) according to claim 1, wherein the module has a control unit which is suitable to monitor a voltage (ACin) and / or a current and a modulation of the voltage and / or the current that is applied to the Module or an AC-DC converter is supplied.
    [3]
    3. Color-adjustable LED module (1) according to claim 2, wherein the control unit is configured to determine a color adjustment signal and / or a color temperature adjustment signal and / or a dimming signal from the detected modulation.
    [4]
    4. Color-adjustable LED module (1) according to claim 3, wherein the control unit is configured to output at least one control signal (PWM, PWM1, PWM2) to the LED driver (LD “) and based on the relative duty cycle of the at least one polarity to vary the particular tuning / dimming signal.
    [5]
    5. Color-tunable LED module (1) according to one of the preceding claims, wherein the module (1) is configured to receive tuning and / or dimming signals only via supply lines.
    [6]
    6. Color-adjustable LED module (1) according to one of the preceding claims, wherein the LED chain (5, 6) has a linear regulator and / or at least one protective diode (D19, D20), preferably a Schottky diode.
    [7]
    7. Color-adjustable LED module (1) according to one of claims 3 or 5, wherein the control unit is configured to determine the relative duty cycle of the polarities that are applied to the LED chains (5, 6) based on the tuning signal.
    [8]
    8. Color-adjustable LED module (1) according to claim 4 or according to claim 4 and one of the preceding claims, wherein the LED driver (LD “) has an inverter (A1), and wherein the LED driver is configured to a first To drive an LED chain (5) based on the at least one control signal (PWM) and a second LED chain (6) based on the inverted at least one control signal (PWM).
    [9]
    9. Color-tunable LED module (1) according to one of the preceding claims, wherein the LED driver (LD *) dimming the LED chains (5, 6) by reducing the tein time of the relative duty cycle of the polarities that are based on the LED arrangement are applied, performs.
    [10]
    10. Color-adjustable LED module (1) according to one of the preceding claims, wherein the module (1) can be a flexible band, a strip, a chain or a point-like device.
    In addition 6 sheets of drawings
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    同族专利:
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    DE202015100733U1|2016-05-18|
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US20130009560A1|2010-04-09|2013-01-10|Mitsubishi Chemical Corporation|Illumination light control apparatus and led illumination system|
    US20140333219A1|2012-01-13|2014-11-13|Koninklijke Philips N.V.|Led lighting unit with color and dimming control|
    WO2014127554A1|2013-02-25|2014-08-28|Yan Huiping|Led lamp controller, led lamp and drive method for led lamp|
    BR112012016537A2|2010-01-07|2020-11-10|Koniklijke Philips Electronics N.V.|"ac-led lighting circuit, ac-led lighting device and method for activating an ac-led lighting circuit"|
    JP5673141B2|2010-01-29|2015-02-18|三菱化学株式会社|White LED light-emitting device dimming device and lighting system|
    US20120206065A1|2011-02-14|2012-08-16|Whitaker Bradford K|Light emitting apparatus and method of manufacturing and using the same|GB2562214A|2017-05-03|2018-11-14|Shen Zhengxian|Two-way two-line light control circuit|
    DE102019118341B3|2019-07-08|2020-07-09|Insta Gmbh|Linear light unit, light source module for such a linear light unit and method for operating such a linear light unit|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE202015100733.7U|DE202015100733U1|2015-02-16|2015-02-16|Color-tunable LED module with anti-parallel LED chains|
    PCT/EP2016/050264|WO2016131558A1|2015-02-16|2016-01-08|Color-tunable led module with anti-parallel led strings|
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