Integrated circuit high voltage DC converter
First Claim
1. A high voltage DC converter comprising:
- a low voltage DC supply;
a rectangular wave oscillator of constant duty cycle comprising a high current silicon transistor connected to said supply and controlled for oscillation or non-oscillation by the condition of a control signal applied thereto;
a two-winding high voltage step-up transformer matched to the duty cycle of said oscillator;
power amplifier means having an input circuit driven by said oscillator and an output circuit connected through the primary winding of said transformer to said supply;
a voltage comparator having switching hysteresis;
a reference voltage source derived from said supply;
means for applying a constant voltage derived from said reference voltage source and a voltage representative of the output voltage from the secondary winding of said transformer to control switching in said voltage comparator to selectively provide a high voltage condition or a low voltage condition at the output of said comparator in response to the relative magnitudes of said applied voltages, andmeans for coupling the switching output of said comparator as said control signal to control on-off switching of said oscillator,said oscillator and said power amplifier are switched to be inactive at substantially low current condition for the high voltage output condition of said comparator,wherein said oscillator, said power amplifier, said reference voltage source and said comparator comprise a single chip silicon integrated circuit with an oscillator terminal and a power amplifier output terminal and including;
frequency controlling circuit means connected to said oscillator terminal; and
a circuit connecting to said primary winding from one terminal of said DC supply to said output terminal.
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Accused Products
Abstract
A step-up DC converter suitable for construction as an integrated circuit chip provides a separate rectangular wave oscillator using a silicon transistor and a power amplifier driven thereby which supplies current to the primary winding of a two-winding step-up transformer matched to the constant duty cycle of the oscillator thereby simplifying construction of the transformer and permitting the oscillator and power amplifier voltage step-up transformer functions to be individually optimized for overall high efficiency operation. A hysteresis switching voltage comparator senses the rectified value of the high voltage output from the transformer relative to a stable reference voltage and switches both the oscillator and the amplifier to their standby current condition when a predetermined high output voltage level is obtained and switches both oscillator and amplifier into conduction when the output voltage falls to a predetermined level. A second comparator operates an LED indicator when the output voltage is above a certain level.
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Citations
4 Claims
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1. A high voltage DC converter comprising:
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a low voltage DC supply; a rectangular wave oscillator of constant duty cycle comprising a high current silicon transistor connected to said supply and controlled for oscillation or non-oscillation by the condition of a control signal applied thereto; a two-winding high voltage step-up transformer matched to the duty cycle of said oscillator; power amplifier means having an input circuit driven by said oscillator and an output circuit connected through the primary winding of said transformer to said supply; a voltage comparator having switching hysteresis; a reference voltage source derived from said supply; means for applying a constant voltage derived from said reference voltage source and a voltage representative of the output voltage from the secondary winding of said transformer to control switching in said voltage comparator to selectively provide a high voltage condition or a low voltage condition at the output of said comparator in response to the relative magnitudes of said applied voltages, and means for coupling the switching output of said comparator as said control signal to control on-off switching of said oscillator, said oscillator and said power amplifier are switched to be inactive at substantially low current condition for the high voltage output condition of said comparator, wherein said oscillator, said power amplifier, said reference voltage source and said comparator comprise a single chip silicon integrated circuit with an oscillator terminal and a power amplifier output terminal and including;
frequency controlling circuit means connected to said oscillator terminal; anda circuit connecting to said primary winding from one terminal of said DC supply to said output terminal. - View Dependent Claims (2, 3, 4)
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Specification