High power factor electronic ballast with load dependent bus voltage regulation
First Claim
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1. In a ballast circuit for a gas discharge lamp, a circuit configuration for indirectly controlling a bus voltage in response to varying load conditions, said circuit configuration comprising:
- (a) an input stage coupled to an AC source, said input stage converting an AC voltage to a direct current (DC) bus voltage;
(b) an overvoltage protection controller having a sensing terminal coupled to an output of the input stage for sensing the DC bus voltage and an output connected to a first input of the input stage for shutting down the input stage when the sensed DC bus voltage is above an upper threshold voltage and for restarting the input stage when the sensed DC voltage is below a lower threshold voltage;
(c) a slow-loop controller having a sensing terminal coupled to said output of the input stage for sensing the DC bus voltage and for outputting an on-time signal responsive to said sensed DC bus voltage;
(d) an on-time controller having an input coupled to an output of said slow loop controller and an output coupled to a second input of said input stage, said on-time controller providing one of a minimum on-time signal and said on-time signal; and
(e) an output stage for receiving power from said input stage, said output stage supplying a low-frequency square wave of current to drive at least one load.
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Abstract
A high power factor electronic ballast for a gas discharge lamp is disclosed which can provide bus voltage control in response to varying load conditions without the need for direct sensing of the load conditions. The electronic ballast includes an input stage; an output stage; a slow loop controller configured to regulate the bus voltage to a constant value during steady state operation; a hysteresis band over voltage protection (OVP) controller for maintaining the bus voltage in a predetermined hysteresis voltage band during open circuit and pre-ignition conditions; and an on-time limiting controller for guaranteeing a minimum on-time for the input stage. The electronic ballast further includes at least one DC bus capacitor for storing energy created from energy imbalances between the input and output stage. The novel construction makes it possible to regulate the bus voltage to a constant value under steady state conditions using the slow loop controller, and to prevent the bus voltage from increasing in an uncontrolled manner under open circuit and pre-ignition conditions using the over voltage protection controller. This is advantageously achieved without having to directly sense the load condition.
17 Citations
20 Claims
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1. In a ballast circuit for a gas discharge lamp, a circuit configuration for indirectly controlling a bus voltage in response to varying load conditions, said circuit configuration comprising:
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(a) an input stage coupled to an AC source, said input stage converting an AC voltage to a direct current (DC) bus voltage;
(b) an overvoltage protection controller having a sensing terminal coupled to an output of the input stage for sensing the DC bus voltage and an output connected to a first input of the input stage for shutting down the input stage when the sensed DC bus voltage is above an upper threshold voltage and for restarting the input stage when the sensed DC voltage is below a lower threshold voltage;
(c) a slow-loop controller having a sensing terminal coupled to said output of the input stage for sensing the DC bus voltage and for outputting an on-time signal responsive to said sensed DC bus voltage;
(d) an on-time controller having an input coupled to an output of said slow loop controller and an output coupled to a second input of said input stage, said on-time controller providing one of a minimum on-time signal and said on-time signal; and
(e) an output stage for receiving power from said input stage, said output stage supplying a low-frequency square wave of current to drive at least one load. - View Dependent Claims (2, 3, 4)
a first comparator having a first input coupled to said upper threshold voltage and a common second input coupled to said DC bus voltage;
a second comparator having a first input coupled to said lower threshold voltage and a common second input coupled to said DC bus voltage;
a latch having a set input coupled to an output of said first comparator and a reset input coupled to an output of said second comparator, said latch outputting a shutdown signal to said input stage when said DC bus voltage is greater than said upper threshold voltage, said latch outputting a reset signal to said input stage when said DC bus voltage is less than said lower threshold voltage.
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3. The ballast circuit of claim 1, further comprising a first and a second DC bus capacitor for storing said DC bus voltage.
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4. The ballast circuit of claim 1, wherein the at least one load is a gas discharge lamp.
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5. A method for indirectly controlling a direct current (DC) bus voltage in an electronic ballast in response to varying load conditions, said method comprising the steps of:
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(a) maintaining a DC bus voltage in a range defined by a lower voltage and a upper voltage in one of a pre-ignition and open circuit state mode of operation of the electronic ballast;
in each of a pre-ignition state, open circuit state and steady state mode of operation of said electronic ballast;
(b) simultaneously sensing said DC bus voltage output from an input power stage by a slow loop controller and an overvoltage protection controller;
(c) outputting from said slow loop controller an on-time signal to an on-time controller responsive to said sensed DC bus voltage at step (b); and
(d) providing one of a minimum on-time signal and said on-time signal to a first input of said input power stage for controlling the on-time of said input power stage. - View Dependent Claims (6, 7, 8, 9, 10)
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11. In a ballast circuit for a gas discharge lamp, a circuit configuration for indirectly controlling a bus voltage in response to varying load conditions, said circuit configuration comprising:
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an input stage operable to convert an AC voltage to a DC bus voltage;
an output stage operable to supply a low-frequency square wave of current to drive at least one load in response to a conversion of the AC voltage to the DC bus voltage; and
an overvoltage protection controller operable to sense the DC bus voltage, said overvoltage protection controller further operable to shut down said input stage when the sensed DC bus voltage is above an upper threshold voltage and to restart said input stage when the sensed DC voltage is below a lower threshold voltage. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18)
a pair of DC bus capacitors for storing the DC bus voltage.
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18. The circuit configuration of claim 11, further comprising:
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a slow-loop controller operable to sense the DC bus voltage, said slow-loop controller further operable to provide an on-time signal responsive to said sensed DC bus voltage; and
an on-time controller operable to provide one of a minimum on-time signal and the on-time signal to said input stage in response to a reception of the on-time signal.
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19. In a ballast circuit for a gas discharge lamp, a circuit configuration for indirectly controlling a bus voltage in response to varying load conditions, said circuit configuration comprising:
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an input stage operable to convert an AC voltage to a DC bus voltage;
an output stage operable to supply a low-frequency square wave of current to drive at least one load in response to a conversion of the AC voltage to the DC bus voltage;
a slow-loop controller operable to sense the DC bus voltage, said slow-loop controller further operable to provide an on-time signal responsive to said sensed DC bus voltage; and
an on-time controller operable to output a minimum on-time signal when the on-time signal has a value below a minimum on-time signal controller threshold value, said on-time controller further operable to output the on-time signal when the on-time signal has a value above the minimum on-time signal controller threshold value. - View Dependent Claims (20)
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Specification
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Current AssigneeKoninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
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Original AssigneeKoninklijke Philips Electronics N.V. (Koninklijke Philips N.V.)
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InventorsShen, Eric B.
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Primary Examiner(s)Wong, Don
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Assistant Examiner(s)TRAN, THUY V
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Application NumberUS09/855,469Publication NumberTime in Patent Office672 DaysField of Search315/200.R, 315/224, 315/225, 315/246, 315/283, 315/291, 315/299, 315/307, 315/360, 361/90, 361/91.1US Class Current315/307CPC Class CodesH05B 41/28 using static convertersH05B 41/2853 against abnormal power supp...Y02B 20/00 Energy efficient lighting t...
