Power supply circuit for gas discharge tube
First Claim
1. A power supply for gas discharge tubes and including an oscillator, said oscillator including first gate means and transformer means having primary winding means connected to said first gate means, a secondary winding means connected to said gas discharge tube,said first gate means being operative to conduct current to the primary winding means upon the receipt of a first gate signal, feedback means coupled to the primary winding means and to the first gate means for providing a gate signal upon the occurrence of a first predetermined current condition in the primary winding means, second gate means coupled to the first gate means and being operative upon receipt of a second gate signal to disable said first gate means and terminate current flow to the primary winding means, sensing means coupled to the primary winding means and operative to provide the second gate signal upon the occurrence of a second current condition in the primary winding means, a power source, first energy storage means coupled to said power source for receiving a charge therefrom, safety means coupled to said secondary winding means and to said first gate means for disabling said first gate means if a predetermined unbalanced current is detected in said secondary winding means, time delay circuit means connected to said first energy storage means and to the first gate means for applying a gate signal to the first gate means after a time delay of a plurality of seconds after said first gate means has been disabled by said safety means, and third gate means connected to said first energy storage means and to the feedback means and shunting said first energy storage means and operative to prevent said first energy storage means from charging upon the receipt of the gate signal from the feedback means.
1 Assignment
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Accused Products
Abstract
A power supply for high voltage, low current gas discharge tubes such as neon, argon, and mercury vapor. A free running, flyback oscillator, converts D.C. voltage energy into radio frequency energy by means of a compact, ferrite transformer and associated circuitry. The primary winding is tuned by a resonant capacitor and driven by a power transistor. A high voltage, centertapped winding of a ferrite transformer drives the gas tube load directly. A feedback winding arranged across the transistor base and emitter junction sustains oscillation and controls the drive level of the transistor by means of a regulating circuit which controls the amplitude of the current. Oscillator starting is achieved by means of an on-off switch which supplies a single starting pulse to the power transistor or by means of a time delayed starting pulse. A MOSFET transistor connected to the power transistor base and a current sensing transformer arranged in series with the primary winding, disables the power transistor momentarily at the end of a conducting cycle. Charge carries are depleted in the base-cathode region, resulting in resetting the transistor quickly such that it can withstand a forward voltage of 700 volts in the off state.
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Citations
6 Claims
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1. A power supply for gas discharge tubes and including an oscillator, said oscillator including first gate means and transformer means having primary winding means connected to said first gate means, a secondary winding means connected to said gas discharge tube,
said first gate means being operative to conduct current to the primary winding means upon the receipt of a first gate signal, feedback means coupled to the primary winding means and to the first gate means for providing a gate signal upon the occurrence of a first predetermined current condition in the primary winding means, second gate means coupled to the first gate means and being operative upon receipt of a second gate signal to disable said first gate means and terminate current flow to the primary winding means, sensing means coupled to the primary winding means and operative to provide the second gate signal upon the occurrence of a second current condition in the primary winding means, a power source, first energy storage means coupled to said power source for receiving a charge therefrom, safety means coupled to said secondary winding means and to said first gate means for disabling said first gate means if a predetermined unbalanced current is detected in said secondary winding means, time delay circuit means connected to said first energy storage means and to the first gate means for applying a gate signal to the first gate means after a time delay of a plurality of seconds after said first gate means has been disabled by said safety means, and third gate means connected to said first energy storage means and to the feedback means and shunting said first energy storage means and operative to prevent said first energy storage means from charging upon the receipt of the gate signal from the feedback means.
Specification