Electronic ballast with two-step boost converter and method
First Claim
1. A method of operating a boost converter in an electronic ballast for driving at least one fluorescent lamp having heatable filaments, the boost converter receiving an input voltage and operable to provide an output voltage, the method comprising the steps of:
- (a) providing a filament preheat period wherein, following startup of the boost converter, the boost converter output voltage is increased from a pre-operating level substantially equal to the peak value of the boost converter input voltage to a first level that is substantially greater than the pre-operating level, and is then maintained at the first level for a predetermined delay period;
(b) shifting the output voltage of the boost converter to a second level upon completion of the delay period, the second level being greater than the first level in order to supply high voltage to ignite the lamps; and
(c) maintaining the boost converter output voltage at the second level in order to provide steady-state operating power for the lamps.
2 Assignments
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Accused Products
Abstract
An electronic ballast (10) for fluorescent lamps includes a rectifier circuit (100), a boost converter (200), and an inverter (500). The boost converter (200) includes a boost control circuit (400) and a shifting circuit (300). The shifting circuit (300) provides filament preheating by maintaining the boost output voltage at a first level for a predetermined delay period following startup of the boost converter, and then increasing the boost voltage to a second level upon completion of the delay period in order to ignite and operate the lamps. In a preferred embodiment, shifting circuit (300) comprises a shunt circuit (320) and a time delay circuit (360), and inverter (400) is a series resonant half-bridge inverter.
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Citations
20 Claims
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1. A method of operating a boost converter in an electronic ballast for driving at least one fluorescent lamp having heatable filaments, the boost converter receiving an input voltage and operable to provide an output voltage, the method comprising the steps of:
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(a) providing a filament preheat period wherein, following startup of the boost converter, the boost converter output voltage is increased from a pre-operating level substantially equal to the peak value of the boost converter input voltage to a first level that is substantially greater than the pre-operating level, and is then maintained at the first level for a predetermined delay period; (b) shifting the output voltage of the boost converter to a second level upon completion of the delay period, the second level being greater than the first level in order to supply high voltage to ignite the lamps; and (c) maintaining the boost converter output voltage at the second level in order to provide steady-state operating power for the lamps. - View Dependent Claims (2)
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3. An electronic ballast for powering at least one fluorescent lamp, comprising:
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a rectifier circuit having a pair of input connections and a pair of output connections, the input connections being adapted to receive a source of alternating current; a two-step boost converter that is coupled across the rectifier circuit output connections and adapted to receive an input voltage therefrom, the boost converter having first and second output terminals and being operable to provide a boost output voltage between the first and second output terminals, the second output terminal being coupled to a circuit ground node, the boost converter comprising; a boost switch; a boost control circuit for driving the boost switch; and a shifting circuit that is coupled to the boost control circuit and that is operable; (i) following startup of the boost converter, to increase the boost output voltage from a pre-operating level substantially equal to the peak value of the boost converter input voltage to a first level that is substantially greater than the pre-operating level, and then to maintain the boost output voltage at the first level for a predetermined delay period; and (ii) upon completion of the predetermined delay period, to increase the boost output voltage from the first level to a second level in order to provide a high voltage for igniting the lamps, and then to maintain the boost output voltage at the second level in order to supply steady-state operating power to the lamps; and an inverter that is coupled across the boost converter output terminals, the inverter being adapted to power at least one fluorescent lamp. - View Dependent Claims (4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. An electronic ballast for powering at least one fluorescent lamp, comprising:
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a rectifier circuit having a pair of input connections and a pair of output connections, the input connections being adapted to receive a source of alternating current; a two-step boost converter that is coupled across the rectifier circuit output connections and adapted to receive an input voltage therefrom, the boost converter having first and second output terminals and being operable to provide a boost output voltage between the first and second output terminals, the second output terminal being coupled to a circuit ground node, the boost converter comprising; a boost switch; an auxiliary supply; a boost control circuit for driving the boost switch, the boost control circuit including a voltage control input; and a shifting circuit that is coupled to the boost control circuit and that is operable; (i) following startup of the boost converter, to increase the boost output voltage from a pre-operating level substantially equal to the peak value of the boost converter input voltage to a first level that is substantially greater than the pre-operating level, and then to maintain the boost output voltage at the first level for a predetermined delay period; and (ii) upon completion of the predetermined delay period, to increase the boost output voltage from the first level to a second level in order to provide a high voltage for igniting the lamps, and then to maintain the boost output voltage at the second level in order to supply steady-state operating power to the lamps; the shifting circuit comprising; a shunt circuit that is coupled between the voltage control input and the circuit ground node, the shunt circuit having an enable input, the shunt circuit comprising a series combination of a shunt switch and a shunt resistor, the shunt switch having a turn-on threshold voltage and a control lead that is coupled to the enable input, the shunt switch being operable to turn on in response to a voltage that exceeds the turn-on threshold voltage being applied to the control lead; and a time delay circuit having a supply input that is coupled to the auxiliary supply and a trigger output that is coupled to the enable input of the shunt circuit, the time delay circuit being operable to activate the shunt circuit upon completion of the delay period, the time delay circuit comprising; a timing resistor that is coupled between the supply input and a first node; a timing capacitor that is coupled between the first node and the circuit ground node; and a voltage divider comprising a first divider resistor that is coupled between the first node and a second node, and a second divider resistor that is coupled between the second node and the circuit ground node, the second node being coupled to the trigger output of the time delay circuit; and a series resonant half-bridge inverter that is coupled across the boost converter output terminals, the inverter being adapted to power at least one fluorescent lamp. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification