Linear solid-state lighting with frequency sensing free of fire and shock hazards
First Claim
1. A linear light-emitting diode (LED) tube lamp, comprising:
- a housing having two ends;
a light-emitting diode printed circuit board (LED PCB), the LED PCB having LED arrays fixed thereon;
an LED driving circuit configured to power the LED arrays on the LED PCB, the LED driving circuit having a first high electric potential input and a second high electric potential input;
two lamp bases respectively connected to the two ends of the housing, each lamp base having a bi-pin with two pins protruding outwards, each lamp base further having a shock protection switch;
two bridge rectifiers each connected to a respective one of the shock protection switches, each bridge rectifier having four input/output ports and configured to convert an alternating current (AC) voltage from an electronic ballast or AC mains to a direct current (DC) voltage; and
a frequency sensing and control mechanism comprising a frequency sensitive device and a control device,wherein, when the AC voltage from the electronic ballast is detected by the frequency sensitive device, the control device couples the DC voltage from the two bridge rectifiers to the first high electric potential input of the LED driving circuit,wherein, when the AC voltage from the AC mains or no voltage is detected by the frequency sensitive device, the control device couples the DC voltage from the two bridge rectifiers to the second high electric potential input of the LED driving circuit,wherein, for each lamp base, when the respective shock protection switch is off, the bi-pin is electrically disconnected from the respective bridge rectifier and the frequency sensitive device, andwherein, for each lamp base, when the bi-pin is installed in a lamp socket, the respective shock protection switch is actuated to electrically connect the two pins of the bi-pin to the respective bridge rectifier and to the frequency sensitive device.
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Accused Products
Abstract
A linear light-emitting diode (LED)-based solid-state universal lamp using a frequency sensing and control mechanism operates normally with both an electronic ballast and the AC mains. The frequency sensing and control mechanism automatically detects voltage types associated with output voltages from the ballast and the AC mains in a single-ended or a double-ended lamp fixture and makes proper management so that the universal lamp works for either case and in either fixture without operational uncertainty. When two shock protection switches are used in two lamp bases, the universal lamp fully protects a person from possible electric shock during initial installation and re-lamping.
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Citations
20 Claims
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1. A linear light-emitting diode (LED) tube lamp, comprising:
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a housing having two ends; a light-emitting diode printed circuit board (LED PCB), the LED PCB having LED arrays fixed thereon; an LED driving circuit configured to power the LED arrays on the LED PCB, the LED driving circuit having a first high electric potential input and a second high electric potential input; two lamp bases respectively connected to the two ends of the housing, each lamp base having a bi-pin with two pins protruding outwards, each lamp base further having a shock protection switch; two bridge rectifiers each connected to a respective one of the shock protection switches, each bridge rectifier having four input/output ports and configured to convert an alternating current (AC) voltage from an electronic ballast or AC mains to a direct current (DC) voltage; and a frequency sensing and control mechanism comprising a frequency sensitive device and a control device, wherein, when the AC voltage from the electronic ballast is detected by the frequency sensitive device, the control device couples the DC voltage from the two bridge rectifiers to the first high electric potential input of the LED driving circuit, wherein, when the AC voltage from the AC mains or no voltage is detected by the frequency sensitive device, the control device couples the DC voltage from the two bridge rectifiers to the second high electric potential input of the LED driving circuit, wherein, for each lamp base, when the respective shock protection switch is off, the bi-pin is electrically disconnected from the respective bridge rectifier and the frequency sensitive device, and wherein, for each lamp base, when the bi-pin is installed in a lamp socket, the respective shock protection switch is actuated to electrically connect the two pins of the bi-pin to the respective bridge rectifier and to the frequency sensitive device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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14. A light-emitting diode (LED)-based lamp, comprising:
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a housing having at least one end; a light-emitting diode printed circuit board (LED PCB), the LED PCB having LED arrays fixed thereon; an LED driving circuit configured to power the LED arrays on the LED PCB, the LED driving circuit having a first high electric potential input and a second high electric potential input; at least one bridge rectifier having four input/output ports and configured to convert an alternating current (AC) voltage from an electronic ballast or AC mains to a direct current (DC) voltage; a frequency sensing and control mechanism comprising a frequency sensitive device and a control device, wherein; when the AC voltage from the electronic ballast is detected by the frequency sensitive device, the control device couples the DC voltage from the at least one bridge rectifier to the first high electric potential input of the LED driving circuit, and when the AC voltage from the AC mains or no voltage is detected by the frequency sensitive device, the control device couples the DC voltage from the at least one bridge rectifier to the second high electric potential input of the LED driving circuit; and at least one lamp base connected to the at least one end of the housing, the at least one lamp base having two electrical contacts electrically connected to two input/output ports of the at least one bridge rectifier and the frequency sensitive device. - View Dependent Claims (15, 16, 17, 18, 19, 20)
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Specification