Adaptation circuit for coupling LED to ballast
First Claim
1. A device including an adaptation circuit for coupling a light circuit to a ballast circuit, the light circuit comprising at least one light emitting diode, the ballast circuit arranged for connection to a discharge lamp using a first amount of power, the light circuit being designed to use a second amount of power, the adaptation circuit comprising a conversion circuit for converting a periodic input voltage signal and an input current signal coming from the ballast circuit into an output voltage signal and an output current signal for the light circuit, wherein the conversion circuit is configured to:
- drain energy from the ballast circuit during a portion of a period of the input voltage signal,reduce an amplitude of the input voltage signal to a value below a predefined value, and store the drained energy, during a predefined time interval of the period of the input voltage signal after the portion of the period of the input voltage signal wherein the energy from the ballast circuit has been drained by the conversion circuit, the predefined time interval being synchronized with the period of the input voltage signal, andrelease the stored energy to the light circuit during another portion of the period after the predefined time interval elapses.
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Accused Products
Abstract
Adaptation circuits (1) allow discharge lamps to be replaced by light circuits (45) with light emitting diodes, while keeping ballast circuits (8) designed for connection to the discharge lamps. The adaptation circuits (1) comprise conversion circuits (2) for converting input voltage and current signals coming from the ballast circuits (8) into output voltage and current signals destined for the light circuits (45). The conversion circuits (2) reduce amplitudes of the input voltage signals to values below predefined values during predefined time intervals after energy from the ballast circuits (8) has been transferred to the conversion circuits (2). The time intervals are synchronized with periods of the input voltage signals. Between first draining states for draining energy and second releasing states for releasing the energy, third states such as holding states for holding the energy have been introduced. The third states allow relevant values as experienced by the ballast circuits (8) to remain comparable to situations when the discharge lamps were powered.
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Citations
18 Claims
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1. A device including an adaptation circuit for coupling a light circuit to a ballast circuit, the light circuit comprising at least one light emitting diode, the ballast circuit arranged for connection to a discharge lamp using a first amount of power, the light circuit being designed to use a second amount of power, the adaptation circuit comprising a conversion circuit for converting a periodic input voltage signal and an input current signal coming from the ballast circuit into an output voltage signal and an output current signal for the light circuit, wherein the conversion circuit is configured to:
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drain energy from the ballast circuit during a portion of a period of the input voltage signal, reduce an amplitude of the input voltage signal to a value below a predefined value, and store the drained energy, during a predefined time interval of the period of the input voltage signal after the portion of the period of the input voltage signal wherein the energy from the ballast circuit has been drained by the conversion circuit, the predefined time interval being synchronized with the period of the input voltage signal, and release the stored energy to the light circuit during another portion of the period after the predefined time interval elapses. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A method of coupling a light circuit to a ballast circuit, wherein the light circuit comprises at least one light emitting diode, the ballast circuit is arranged to connect to a discharge lamp using a first amount of power, and the light circuit is arranged to use a second amount of power, the method comprising:
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converting a periodic input voltage signal and an input current signal coming from the ballast circuit into an output voltage signal and an output current signal for the light circuit, the conversion comprising, draining energy from the ballast circuit during a portion of a period of the input voltage signal, reducing an amplitude of the input voltage signal to a value below a predefined value, and storing the drained energy, during a predefined time interval of the period of the input voltage signal after the portion of the period of the input voltage signal wherein the energy from the ballast circuit has been transferred to the conversion circuit, and releasing the stored energy to the light circuit during another portion of the period after the predefined time interval elapses, wherein the predefined time interval is synchronized with the period of the input voltage signal.
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18. A device for supplying power from a ballast circuit, which is configured to be connected to a discharge lamp and supply a first amount of power, to a light circuit having at least one light emitting diode and which is configured to use a second amount of power, the device comprising:
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a rectifier having an input configured to be connected to the ballast circuit and to receive therefrom an input voltage signal and an input current signal, and having an output configured to supply a rectified voltage; a trigger circuit having an input connected to output of the rectifier, and having an output configured to supply a trigger signal which is synchronized to a period of the input voltage signal; a timer circuit configured to receive the trigger signal and in response thereto to generate a control signal having a pulse period set by the timer circuit; and a switching circuit having an input connected to an output of the rectifier, and having an output configured to supply an output voltage signal and an output current signal to the light circuit, the switching circuit comprising a switch connected to receive the control signal, wherein the switch is configured to respond to the control signal to cause the device to; drain energy from the ballast circuit during a portion of a period of the input voltage signal, reduce an amplitude of the input voltage signal to a value below a predefined value, and store the drained energy, during a predefined time interval of the period of the input voltage signal after the portion of the period of the input voltage signal wherein the energy from the ballast circuit has been drained by the conversion circuit, the predefined time interval being defined by the pulse period of the control signal and being synchronized with the period of the input voltage signal, and release the stored energy to the light circuit during another portion of the period after the predefined time interval elapses.
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Specification