RU2007108218A - DEVICE FOR IGNITION AND REGULATION OF POWER OF A LUMINESCENT LAMP WITH HEATING CATHODES (OPTIONS) - Google Patents

Claims (7)

1. A device for ignition and power control of a fluorescent lamp with heated two-electrode cathodes, containing a source of electric power, a high-frequency pulse shaper made by a half-bridge transistor circuit with a power input, a control input and a power output, a master oscillator with an analog or digital frequency control circuit, the main series resonant circuit, consisting of inductor and capacitor, blocking capacitor included in the series resonant circuit go circuit; the power inputs of the high-frequency pulse shaper and the master oscillator are connected to an electric power source; the output of the master oscillator is connected to the control input of the high-frequency pulse shaper; the power output of the high-frequency pulse shaper is connected to the main serial resonant circuit; each of the cathodes of the fluorescent lamp is connected by one electrode to the corresponding terminal of the capacitor of the main series resonant circuit, characterized in that it contains a high-frequency transformer with additional secondary windings, for example, the first and second, first and second additional series resonant circuits, each of which contains a choke and capacitor ; the primary winding of the high-frequency transformer is connected to the output of the high-frequency pulse shaper directly or through a blocking capacitor; the first and second secondary windings of the high-frequency transformer are connected to the corresponding first and second cathodes of the fluorescent lamp through the respective first and second additional series resonant circuits. 2. The device according to claim 1, characterized in that in it the frequency of the master oscillator at the stage of preheating the cathodes of the fluorescent lamp is √2 times more than the resonant frequency of the main resonant circuit. 3. The device according to claim 1, characterized in that the resonant frequency of the additional resonant circuits is less than the starting frequency of the master oscillator. 4. The device according to claim 1, characterized in that the primary winding of the high-frequency transformer is connected to the output of the high-frequency pulse shaper through an additional blocking capacitor. 5. A device for ignition and power control of a fluorescent lamp with heated two-electrode cathodes, containing a source of electrical power, a high-frequency pulse shaper, with a power input, a control input and a power output, made by a symmetrical push-pull transistor circuit with an output transformer, a generator with an analog or digital frequency control circuit, main series resonant circuit consisting of a choke and capacitor, blocking capacitor, including ny in the circuit a series resonant circuit; the power inputs of the high-frequency pulse shaper and the master oscillator are connected to an electric power source; the output of the master oscillator is connected to the control input of the high-frequency pulse shaper; the power output of the high-frequency pulse shaper is connected to a series resonant circuit, characterized in that it contains additional series resonant circuits, for example, the first and second, each of which contains a choke and a capacitor; the transformer of the high-frequency pulse shaper is made with additional secondary windings, for example, the first and second; each of the cathodes of the fluorescent lamp is connected by one electrode to the corresponding terminal of the capacitor of the main serial resonant circuit, the first and second additional secondary windings of the high-frequency transformer are connected to the corresponding first and second cathodes of the fluorescent lamp through the corresponding first and second additional serial resonant circuits. 6. The device according to claim 5, characterized in that in it the frequency of the master oscillator at the stage of preheating the cathodes of the fluorescent lamp is √2 times more than the resonant frequency of the main resonant circuit. 7. The device according to claim 5, characterized in that the resonant frequency of the additional resonant circuits in it is less than the starting frequency of the master oscillator.