Driving circuit for light emitting diode apparatus and method of operation
First Claim
1. A driving circuit for a plurality of Light Emitting Diode devices (LEDs), the driving circuit comprising:
- an input conditioning portion including;
a first input node coupled to an alternating current power supply,a second input node coupled to the alternating current power supply, anda first bridge rectifying circuit coupled to the first node and the second node structured to rectify an input signal;
a power storage portion coupled to the input conditioning portion, the power storage portion including;
a second bridge rectifying circuit with an output coupled to an output driving capacitor through an inductor, the output driving capacitor and inductor coupled in series,a first capacitor coupled to the first input node through a first diode and coupled to the second bridge rectifying circuit,a second capacitor coupled to the second input node through a second diode and coupled to the second bridge rectifying circuit,a first controllable switch coupled between the output of the second bridge rectifying circuit and the first node, when the first controllable switch is activated, the first capacitor is connected to the output driving capacitor,a second controllable switch coupled between the output of the second bridge rectifying circuit and the second node, when the second controllable switch is activated, the second capacitor is connected to the output driving capacitor; and
an output driver coupled to the plurality of LED devices and receiving an input from the output driving capacitor of the power storage portion.
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Abstract
Disclosed is an LED bulb having a current-compensated driving circuit. A compensation current 352 is coupled to a main driving capacitor used to power LEDs and functions to keep the load current more constant. This has dual advantages of saving power and making the light output more uniform. Saving power also means that the circuit runs cooler than without compensation. Additionally this circuit includes an inductor placed in line with a driving capacitor. The inductor functions to reduce rapid current influx to the capacitor during operation of the driving circuit, which reduces EMF and reduces component stress. One benefit of using an inductor is that most of the current absorbed by the inductor is provided back to the circuit during a later portion of the AC cycle, which also limits energy losses by the driving circuit.
85 Citations
9 Claims
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1. A driving circuit for a plurality of Light Emitting Diode devices (LEDs), the driving circuit comprising:
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an input conditioning portion including; a first input node coupled to an alternating current power supply, a second input node coupled to the alternating current power supply, and a first bridge rectifying circuit coupled to the first node and the second node structured to rectify an input signal; a power storage portion coupled to the input conditioning portion, the power storage portion including; a second bridge rectifying circuit with an output coupled to an output driving capacitor through an inductor, the output driving capacitor and inductor coupled in series, a first capacitor coupled to the first input node through a first diode and coupled to the second bridge rectifying circuit, a second capacitor coupled to the second input node through a second diode and coupled to the second bridge rectifying circuit, a first controllable switch coupled between the output of the second bridge rectifying circuit and the first node, when the first controllable switch is activated, the first capacitor is connected to the output driving capacitor, a second controllable switch coupled between the output of the second bridge rectifying circuit and the second node, when the second controllable switch is activated, the second capacitor is connected to the output driving capacitor; and an output driver coupled to the plurality of LED devices and receiving an input from the output driving capacitor of the power storage portion. - View Dependent Claims (2, 3, 4, 5)
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6. A method of driving a plurality of Light Emitting Diode devices (LEDs), the method comprising:
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receiving an input signal that has a varying voltage at a first node and a second node; limiting the varying voltage to a maximum voltage via a first bridge rectifying circuit; receiving power from the first bridge rectifying circuit in a second bridge rectifying circuit; connecting a first capacitor to an LED power delivery component during a first phase through a first controllable switch coupled between an output of the second bridge rectifying circuit and the first node to increase a voltage of the LED power delivery component through an inductor that is series-coupled to the LED power delivery component; connecting a second capacitor to the at least one power storage device during a second phase through a second controllable switch coupled between an output of the second bridge rectifying circuit and the second node to increase a voltage of the LED power delivery component through the inductor that is series-coupled to the LED power delivery component; and driving the LEDs from the power delivery component. - View Dependent Claims (7, 8, 9)
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Specification