The present invention relates to light emitting diode (LED) driving technologies, and more particularly to a LED driving method.
Nowadays, display panels of non-emissive display devices such as liquid crystal display devices are not self-emissive, and thus backlight sources are necessary to be provided to the display panels for backlight illumination. The backlight sources primarily can be classified into cold cathode fluorescent lamps, hot cathode fluorescent lamps, LEDs and other electroluminescent elements. Specially, since the LEDs have the advantages of high color saturation, without mercury pollution, long operating life, low power consumption and adjustable color temperature, and therefore are increasingly used as the backlight sources of liquid crystal display devices.
Referring to
Therefore, the present invention is directed to an improved LED driving method.
More specifically, a LED driving method in accordance with an embodiment of the present invention is adapted for driving a plurality of LED strings. Each of the LED strings includes single one LED or multiple LEDs connected in series. In the exemplary embodiment, the LED driving method includes steps of: obtaining an initial value of a duty-on period of a driving current in a frequency period to thereby acquire a target accumulative luminosity in the initial value of the duty-on period for each of the LED strings; and prolonging the duty-on period of the driving current in the frequency period and assuring an accumulative luminosity in the prolonged duty-on period to be substantially equal to the target accumulative luminosity for each of the LED strings, when the maximum one of the initial values of the duty-on periods of the driving currents in the frequency period for the LED strings is shorter than the frequency period.
In one embodiment, the above step of prolonging and assuring includes sub-steps of: prolonging the duty-on period of the driving current in the frequency period according to a first ratio for each of the LED strings; and decreasing a luminosity per unit time in the prolonged duty-on period according to a second ratio for each of the LED strings; the product of the first ratio multiplying the second ratio is equal to 1. Moreover, the first ratio in an exemplary embodiment is a ratio of a target duty-on period to the duty-on period with the maximum one of the initial values of the duty-on periods of the driving currents in the frequency period for the light emitting diode strings.
In one embodiment, the above step of prolonging and assuring includes a sub-step of: prolonging the duty-on period with the maximum one of the initial values of the duty-on periods of the driving currents for the LED strings to be substantially equal to the frequency period.
In one embodiment, the above LED driving method further includes a step of: making start points of the duty-on periods of the driving currents in the frequency period for the LED strings be not completely the same, when the maximum one of the initial values of the duty-on periods of the driving currents for the LED strings is shorter than the frequency period.
A LED driving method in accordance with another embodiment of the present invention is adapted for driving multiple LED strings. Each of the LED strings includes single one LED or multiple LEDs connected in series. In the exemplary embodiment, the LED driving method includes steps of: obtaining an initial value of a duty-on period of a driving current in a frequency period for each of the LED strings, wherein an initial value of a current value of the driving current in the duty-on period for each of the LED strings is a preset value; and prolonging the duty-on period of the driving current in the frequency period according to a first ratio and decreasing the current value of the driving current in the prolonged duty-on period according to a second ratio for each of the LED strings to thereby obtain a plurality of new values of the current values of the driving currents, when the maximum one of the initial values of the duty-on periods of the driving currents in the frequency period for the LED strings is shorter than the frequency period. Moreover, the first ratio and the second ratio are mutually reciprocal. In addition, the first ratio in an exemplary embodiment is a ratio of a target duty-on period to the duty-on period with the maximum one of the initial values of the duty-on periods of the driving currents in the frequency period for the light emitting diode strings.
In one embodiment, the above step of prolonging and decreasing includes sub-steps of: prolonging the duty-on period with the maximum one of the initial values of the duty-on periods of the driving currents for the LED strings to be substantially equal to the frequency period.
In one embodiment, the above LED driving method further includes a step of: shifting start points of some of the duty-on periods of the driving currents in the frequency period, when the maximum one of the initial values of the duty-on periods of the driving currents in the frequency period for the LED strings is shorter than the frequency period.
A LED driving method in accordance with still another embodiment of the present invention is adapted for driving multiple LED strings. Each of the LED strings includes single one LED or multiple LEDs connected in series. In the exemplary embodiment, the LED driving method includes steps of: obtaining an initial value of a light emitting time in a frequency period and an initial value of a luminosity per unit time in the initial value of the light emitting time for each of the LED strings, to thereby acquire a target accumulative luminosity in the frequency period for each of the LED strings; prolonging the light emitting time in the frequency period and decreasing the luminosity per unit time in the prolonged light emitting time for each of the LED strings, when the maximum one of the initial values of the light emitting times in the frequency period for the LED strings is less than the frequency period; and driving each of the LED strings to operate in the corresponding one of the prolonged light emitting times in the frequency period to achieve the target accumulative luminosity.
In one embodiment, the above LED driving method further includes a step of: making start points of the prolonged light emitting times in the frequency period for the LED strings be not completely the same.
In one embodiment, the above step of prolonging and decreasing includes a sub-step of: prolonging the light emitting time with the maximum one of the initial values of the light emitting times in the frequency period for the LED strings to be substantially equal to the frequency period.
The above objects and advantages of the present invention will become more readily apparent to those ordinarily skilled in the art after reviewing the following detailed description and accompanying drawings, in which:
The present invention will now be described more specifically with reference to the following embodiments. It is to be noted that the following descriptions of embodiments of this invention are presented herein for purpose of illustration and description only. It is not intended to be exhaustive or to be limited to the precise form disclosed.
Referring to
In the following, the LED driving method in accordance with the illustrative embodiment of the present invention will be described in detail with reference to the accompanying drawings of
Specifically, in the LED driving method of the illustrative embodiment of the present invention, an initial value of a duty-on period (or a duty cycle which is the ratio of the duty-on period to the frequency period) of a driving current in a frequency period is firstly obtained to thereby acquire a target accumulative luminosity in the initial value of the duty-on period for each of the LED strings e.g., CH1˜CH4. In the illustrative embodiment, initial values of the current values of the driving currents for the respective LED strings CH1˜CH4 generally are preset to be a maximum gray-level current level e.g., 20 mA as illustrated in
Subsequently, when the maximum one of the initial values of the duty-on periods (or the duty cycles) of the driving currents in a same frequency period for the LED strings CH1˜CH4 is shorter than the frequency period, the duty-on period of each the driving current in the frequency period is prolonged according to a first ratio and the current value of each the driving current is decreased from its initial value according to a second ratio, so that an accumulative luminosity in the prolonged duty-on period is assured to be substantially equal to the target accumulative luminosity for each of the LED strings CH1˜CH4. The obtaining of the first ratio and the second ratio can refer to the summarized steps of
More specifically, in the first frequency period of
Contradistinctively, in the first frequency period of
Moreover, it also can be found that, in the first frequency period of
In addition, it is noted that, the present invention is not limited to prolong the maximum one of the initial values of the duty-on periods (or duty cycles) of the driving currents for the respective LED strings to be 100% of the frequency period, and can be prolonged to be other target value according to actual application requirement. In another aspect, the LED driving method of the present invention is not limited to only drive four LED strings as illustrated, and can be applied to other situation with any amount of LED strings.
To sum up, in the above various embodiments of the present invention, by adjusting the current value and the duty-on period of the driving current for each of the LED strings, the LED(s) in each LED string can be operated with a relatively high efficiency, so that the cross voltage loss on LED driver 12 can be reduced and thereby the whole efficiency is improved. In another aspect, by prolonging the light emitting time in the frequency period for each LED string, the turned-off time of LED can be decreased and thereby the power consumption in the turned-off time of LED is reduced as a result. In addition, by making the start points of the duty-on periods of the driving currents for the LED strings be not completely the same, the effect of current being uniformly consumed can be achieved and thereby the ripple of power supply voltage in the prior art is relieved.
While the invention has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention needs not be limited to the disclosed embodiment. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims which are to be accorded with the broadest interpretation so as to encompass all such modifications and similar structures.
Number | Date | Country | Kind |
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099129559 | Sep 2010 | TW | national |