Method for pulse width modulation of LEDs with power demand load leveling
First Claim
1. A method for pulse width modulation switching of LED'"'"'s to produce power demand load leveling of a power source for said LED'"'"'s, said method comprising the steps of:
- arranging said LED'"'"'s into a predetermined number of groups;
supplying control signals via control lines to a predetermined number of gating control logic elements corresponding to said groups of LED'"'"'s for controlling activation of said LED'"'"'s, each of said gating control logic elements comprising a plurality of AND gates each having as a first input said control signal of a respective control line and an output coupled in series to an individual LED via a transistor, said transistor having a base terminal coupled to said AND gate, a collector terminal coupled in series to a power supply via a respective LED and an emitter terminal coupled to ground;
providing a first modulating signal having a preset period as output from a pulse width modulator, said modulator being driven by a waveform algorithm capable of varying said period of said first modulating signal;
generating a predetermined number of delayed modulating signals from said first signal; and
supplying said first signal and said delayed signals as a second input to said AND gates of separate gating control logic elements, respectively, to modulate said control signals of said groups of LED'"'"'s with a different signal to activate no more than one of said groups of LED'"'"'s at any one time within said period of said first modulating signal.
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Abstract
The present invention discloses a method and an apparatus for power demand load leveling of a power supply driving a plurality of LED'"'"'s through the use of pulse width modulation. A first modulating signal provided from a pulse width modulator is applied to a delay means for generating second, third and fourth modulating signals each delayed from the previous modulating signal by a predetermined time. The modulating signals are used to modulate control signals corresponding to four groups of associated LED'"'"'s in order to permit only one group of LED'"'"'s to be turned on at any one time, although more than twenty five percent of the LED'"'"'s may be active at any one time. Each of the first, second, third and fourth modulating signals are applied to a different group of four groups of activation switches along with their respective control signals to enable the switches and activate an associated group of LED'"'"'s. The predetermined time, representing a time delay between each of the modulating signals, is chosen to correspond to twenty five percent of the period of the first modulating signal. Due to the time delay between the inputs of the different modulating signals, only one group of LED'"'"'s will change state from off to on at any one time even though each group of LED'"'"'s may be activated during a period and more than twenty five percent of the LED'"'"'s may be active at any one time.
34 Citations
8 Claims
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1. A method for pulse width modulation switching of LED'"'"'s to produce power demand load leveling of a power source for said LED'"'"'s, said method comprising the steps of:
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arranging said LED'"'"'s into a predetermined number of groups; supplying control signals via control lines to a predetermined number of gating control logic elements corresponding to said groups of LED'"'"'s for controlling activation of said LED'"'"'s, each of said gating control logic elements comprising a plurality of AND gates each having as a first input said control signal of a respective control line and an output coupled in series to an individual LED via a transistor, said transistor having a base terminal coupled to said AND gate, a collector terminal coupled in series to a power supply via a respective LED and an emitter terminal coupled to ground; providing a first modulating signal having a preset period as output from a pulse width modulator, said modulator being driven by a waveform algorithm capable of varying said period of said first modulating signal; generating a predetermined number of delayed modulating signals from said first signal; and supplying said first signal and said delayed signals as a second input to said AND gates of separate gating control logic elements, respectively, to modulate said control signals of said groups of LED'"'"'s with a different signal to activate no more than one of said groups of LED'"'"'s at any one time within said period of said first modulating signal. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method for pulse width modulation switching of LED'"'"'s to produce power demand load leveling of a power source for said LED'"'"'s, said method comprising the steps of:
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arranging said LED'"'"'s into a predetermined number of groups; supplying control signals via control lines to a predetermined number of gating control logic elements corresponding to said groups of LED'"'"'s for controlling activation of said LED'"'"'s, each of said gating control logic elements comprising a plurality of AND gates each having as a first input said control signal of a respective control line and an output coupled in series to an individual LED via a transistor, said transistor having a base terminal coupled to said AND gate, a collector terminal coupled in series to a power supply via a respective LED and an emitter terminal coupled to ground; providing a first modulating signal having a preset period as output from a pulse width modulator, said modulator being driven by a waveform algorithm capable of varying said period of said first modulating signal; supplying said first modulating signal to a shift register and selecting a predetermined number of delayed modulating signals as output from preselected cells of said shift register, said selection of said delayed modulating signals as output from preselected cells of said shift register corresponding to a time of activation of respective groups of LED'"'"'s such that said time of activation of said respective groups of LED'"'"'s is selectively variable within said period of said first modulating signal; and supplying said first signal and said delayed signals as a second input to said AND gates of separate gating control logic elements, respectively, to modulate said control signals of said groups of LED'"'"'s with a different signal to activate no more than one of said groups of LED'"'"'s at any one time within said period of said first modulating signal.
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8. A method for pulse width modulation switching of groups of LED'"'"'s in an LED array of a computer to produce power demand load leveling of a power source for said LED'"'"'s, said LED array comprising first, second, third and fourth groups of LED'"'"'s, said method comprising the steps of:
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supplying control signals via control lines from processing sections of said computer to first, second, third and fourth gating control logic elements corresponding to said groups of LED'"'"'s, each of said gating control logic elements comprising a plurality of AND gates each having as a first input said control signal of a respective control line and an output coupled in series to an individual LED via a transistor, said transistor having a base terminal coupled to said AND gate, a collector terminal coupled in series to a power supply via a respective LED and an emitter terminal coupled to ground; providing a first modulating signal having a preset period as output from a pulse width modulator, said modulator being driven by a waveform algorithm capable of varying said period of said first modulating signal; supplying said first signal as input to a shift register comprising twelve cells; selecting as output from a fourth, eighth and twelfth cell of said shift register second, third and fourth signals delayed from said first signal by once, twice and three times a predetermined time, respectively, said predetermined time corresponding to twenty five percent of said period of said first modulating signal; modulating control signals of said first, second, third and fourth groups of LED'"'"'s by applying said first, second, third and fourth signals as a second input to said AND gates of said first, second, third and fourth gating control logic elements, respectively, to activate no more than one of said groups of LED'"'"'s at any one time, said period of said first modulating signal being selected such that said predetermined time is sufficiently long to permit an output current of said power supply to stabilize between consecutive activations.
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Specification