The present invention relates to a control method for light-emitting diodes (LEDs), and particularly to a control method for a plurality sets of series-parallel-connected LEDs via a single wire.
Light-emitting diodes (LEDs) are maturely and extensively applied in lighting, display and other fields. In order to maximize the performance of LEDs, apart from taking into account the material design of the LEDs, a control circuit driving the LEDs to emit light also plays a critical role.
In the circuit of LEDs, there is a configuration of a plurality of groups of series-connected LEDs connected in parallel by a single wire. With respect to a control circuit for such LEDs, the U.S. Pat. No. 9,854,633 provides an LED array and a light source device using the same. The LED array includes a plurality of LED strings connected in parallel to one another, wherein the LEDs are connected to one another in series. A sum of forward voltages of a plurality of corresponding light emitting devices included in at least one LED string among the plurality of LED strings is less than a sum of forward voltages of a plurality of corresponding light emitting devices included in a different LED string, and the at least one LED string includes a voltage compensation unit configured to compensate for a difference in forward voltage levels between the at least one LED string and the different LED string. Accordingly, with the arrangement of the voltage compensation unit, non-uniform current distribution can be mitigated.
In the described plurality of sets of series-parallel-connected LEDs via a single wire, a microcontroller unit (MCU) is usually connected to input terminals of the plurality of LED strings, such that the plurality of LEDs strings can receive only a signal sent from the MCU. Thus, the MCU can provide only uniform control to the LED strings and has a drawback of being incapable of flexibly providing diversified light emitting effects. Therefore, there is a need for an improvement.
The object of the present invention is to solve the issue of sets of series-parallel-connected light-emitting diodes (LEDs) via a single wire, in which only uniform control can be provided to LED strings and diversified light emitting effects cannot be flexibly provided.
To achieve the object, the present invention provides a control method for a plurality of sets of series-parallel-connected LEDs via a single wire. The control method includes the following steps.
Step 1: providing an LED circuit including a control module and a light-emitting module. The light-emitting module includes a plurality of LED strings connected to one another in parallel. Each of the plurality of LED strings includes a plurality of LED units connected in series to one another, and at least a counter that counts cyclically. The control module and the light-emitting module are connected in series via a single connection wire to form a series connection. The counters of the plurality of LED strings respectively comprise a counter start time different from that of another.
Step 2: sending a setting signal to the light-emitting module by the control module. Each of the plurality of LED strings sequentially obtains the setting signal according to the different counter start time of the counter, allocating identification code from a plurality of different identification codes to each of the plurality of LED strings according to an order of obtaining the setting signal, and defining the identification code as an identification value. The setting signal includes a setting instruction and a first identification instruction corresponding to the identification value.
Step 3: sending a designation signal to the light-emitting module by the control module, wherein the designation signal includes a designation instruction and a second identification code corresponding to the identification code, such that one of the plurality of LED strings with the corresponding identification value is selected and independently controlled by the control module.
Accordingly, the present invention is able to allocate different identification codes to the plurality of LED strings the counters essentially comprising different counter start times, such that the plurality of LED strings can be identified and be controlled separately, thus enhancing diversity of light emitting effects.
Details and technical contents of the present invention are given with the accompanying drawings below.
A control method of the present invention is applied to a control or driver circuit for a plurality of sets of series-parallel-connected light-emitting diodes (LEDs) via a single wire. As shown in
Referring to
The control method of the present invention is described with reference to the circuit in
Step 1: providing an LED circuit which includes a light-emitting module 10 and a control module 20. The light-emitting module 10 includes a plurality of LED strings 11 connected in parallel to one another. The plurality of LED strings 11 includes a first LED string 11a, a second LED string 11b and a third LED string 11c. The first LED string 11a, the second LED string 11b and the third LED string 11c respectively include a plurality of first LED unit 110a, a plurality of second LED unit 110b and a plurality of third LED unit 110c, wherein the LED units are connected in series to one another. Further, each of the first LED string 11a, the second LED string 11b and the third LED string 11c includes at least one counter that counts cyclically. In the embodiment, the counter is a PWM counter 117a, and the driver chip of each of the LED units includes the PWM counter. In other words, the driver chip of each LED unit includes the counter. The control module 20 and the light-emitting module 10 are connected in series by a single connection wire 30 to form a series connection. The counters of the plurality of LED strings 11 connected in parallel respectively comprises a counter start time different from that of another. In other words, the counter start times of the counters are shifted from one another and do not overlap one another. The different counter start times are shown as
Step 2: sending a setting signal to the light-emitting module 10 by the control module 20. Each of the plurality of LED strings 11 sequentially obtains the setting signal according to the different counter start time of the counter. Further, allocating one identification code from a plurality of different identification codes to each LED string 11 according to the order of obtaining the setting signal, wherein the identification code is defined as an identification value of the LED string 11. In the embodiment, the identification code includes predetermined values “3”, “5” and “11”. When the counter of the second LED string 11b first counters to “511”, the second LED string 11b stores “5” as the identification code; the third LED string 11c that next counts to “511” stores “3” as the identification code, and the first LED string lla that last counts to “511” stores “11” as the identification code. One of the plurality of LED strings 11 which is defined with the identification code outputs a pulse to notify the control module 20 and the other LED strings 11, and the pulse is returned to the control module 20 through the feedback line 116a. In other words, the identification values of the first LED string 11a, the second LED string 11b and the third LED string 11c are “11”, “5” and “3”, respectively. These above values are examples only, and the expression of the identification code may be modified according to the actual application.
Step 3: sending a designation signal to the light-emitting module 10 by the control module 20, wherein the designation signal corresponds to the identification value. One of the plurality of LED strings 11 with the identification value is selected and independently controlled by the control module 20. Once the control module 20 has issued the designation signal, all of the first LED string 11a, the second LED string 11b and the third LED string 11c receive the designation signal; however, only the LED string 11 with the corresponding identification code performs a corresponding function. In the embodiment, only the LED string 11 allocated with the corresponding identification code passes on the designation signal backward. Thus, although only one control module 20 is provided for the plurality of LED strings 11 which are series-parallel-connected by a single wire, the invention allocates the identification codes to the plurality of LED strings 11, so that each of the plurality of LED strings 11 can be differentiated from another according to the stored identification code, allowing the control module 20 to independently control a specific LED string 11. Thus, the invention is able to achieve the diversified light emitting effects.
In the present invention, the setting signal includes a setting instruction and a first identification instruction corresponding to the identification value. The designation signal includes a designation instruction and a second identification instruction corresponding to the identification value. In one embodiment, as shown in
Accordingly, the present invention is able to allocate different identification codes to the plurality of LED strings by the counters essentially comprising different counter start times, such that the plurality of LED strings can be identified and be controlled separately, thus enhancing the diversity of light emitting effects.
Number | Date | Country | Kind |
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108117653 | May 2019 | TW | national |