Method and apparatus for single-ended conversion of DC to AC power for driving discharge lamps
First Claim
1. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal, comprising:
- a network of at least one switch for generating an AC signal from a DC signal, the AC signal being generated by a first portion of the network periodically opening and closing;
filtering means being coupled between the network of the said at least one switch and the load, the filtering means filtering the AC signal delivered to the load, wherein the filtering means includes a transformer having at least one primary winding that receives the AC signal from the network of the said at least one switch and having a secondary winding that is coupled to the load, and wherein a diode is in series with the at least one primary winding of the transformer; and
impedance means coupled to said at least one transformer primary winding to form a resonant circuit for periodically opening and closing the switch, generally at a resonant frequency of the filtering means, so that alternating electrical power is supplied to the load under a range of voltages provided by the DC signal.
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Accused Products
Abstract
The present disclosure introduces a simple method and apparatus for converting DC power to AC power, and, specifically, to single-ended inverter circuits for driving discharge lamps such as a Cold Cathode Fluorescent Lamp (CCFL) or an External Electrode Fluorescent Lamp (EEFL). Among other advantages, these circuits offer nearly symmetrical voltage waveform to drive discharge lamps when the duty cycle is close to 50%. They also eliminate the high current and high voltage resonant capacitor on the primary side, and reduce the voltage rating of a primary switch to twice the input voltage without the need for snubber circuits. The recommended inverters can be used to efficiently drive discharge lamps at low cost, particularly for applications with a narrow input voltage range. The lamp current can be regulated through the duty cycle modulation of the main switch.
17 Citations
36 Claims
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1. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal, comprising:
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a network of at least one switch for generating an AC signal from a DC signal, the AC signal being generated by a first portion of the network periodically opening and closing; filtering means being coupled between the network of the said at least one switch and the load, the filtering means filtering the AC signal delivered to the load, wherein the filtering means includes a transformer having at least one primary winding that receives the AC signal from the network of the said at least one switch and having a secondary winding that is coupled to the load, and wherein a diode is in series with the at least one primary winding of the transformer; and impedance means coupled to said at least one transformer primary winding to form a resonant circuit for periodically opening and closing the switch, generally at a resonant frequency of the filtering means, so that alternating electrical power is supplied to the load under a range of voltages provided by the DC signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15)
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16. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal for operating at least one electrical discharge lamp, comprising:
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a single-ended network of at least one semiconductor device for generating an AC signal from a DC input signal, the AC signal being generated by a first portion of the network periodically opening and closing; filtering means being coupled between the network of the said at least one semiconductor device and the load, the filtering means filtering the AC signal delivered to the load, wherein the filtering means includes a step-up transformer having two primary windings that receive the AC signal from the network of said at least one semiconductor device and having a secondary winding that is coupled to the load, and wherein the filtering means further includes a capacitor in parallel with the load, and wherein the filtering means is a second order filter that includes an inductance component, a first capacitance component, and a second capacitance component, the second capacitance component being in series with the load; and impedance means coupled to said transformer primary windings to form a resonant circuit for periodically opening and closing the switch, generally at a resonant frequency of the filtering means, so that alternating electrical power is supplied to the load under a range of voltages provided by the DC input signal. - View Dependent Claims (17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28)
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29. A method of converting a direct current (DC) signal into an alternating current (AC) signal for operating at least one electrical discharge lamp, the method comprising:
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receiving a DC signal; opening and closing a switching device by a resonant circuit using the DC signal; chopping the DC input signal by the opening and closing of the switching device; generating an alternating signal in primary windings of a transformer by chopping the DC signal, wherein a diode is in series with at least one primary winding of the transformer; stepping up the alternating signal of the transformer'"'"'s primary winding into its secondary winding; filtering the stepped-up alternating signal; and supplying the filtered signal to the discharge lamp. - View Dependent Claims (30, 31, 32, 33, 34)
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35. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal, comprising:
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a network of at least one switch for generating an AC signal from a DC signal, the AC signal being generated by a first portion of the network periodically opening and closing; filtering means being coupled between the network of said at least one switch and the load, the filtering means filtering the AC signal delivered to the load, wherein the filtering means includes a transformer having at least one primary winding that receives the AC signal from the network of said at least one switch and having a secondary winding that is coupled to the load, and wherein the filter is a second order filter that includes an inductance component and a capacitance component, the inductance being provided by the transformer; and impedance means coupled to said at least one transformer primary winding to form a resonant circuit for periodically opening and closing the switch, generally at a resonant frequency of the filtering means, so that alternating electrical power is supplied to the load under a range of voltages provided by the DC signal.
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36. An apparatus for converting a direct current (DC) signal into an alternating current (AC) signal, comprising:
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a network of at least one switch for generating an AC signal from a DC signal, the AC signal being generated by a first portion of the network periodically opening and closing; filtering means being coupled between the network of the said at least one switch and the load, the filtering means filtering the AC signal delivered to the load, wherein the filtering means includes a transformer having at least one primary winding that receives the AC signal from the network of the said at least one switch and having a secondary winding that is coupled to the load; and impedance means coupled to said at least one transformer primary winding to form a resonant circuit for periodically opening and closing the switch, generally at a resonant frequency of the filtering means, so that alternating electrical power is supplied to the load under a range of voltages provided by the DC signal; and a configuration wherein the load current is regulated through the duty cycle of the switch or by changing the frequency.
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Specification