Patent ID: 6504735
Filing Date: 2003-01-07
Classification: H02M,Y02B

Abstract:
A DC-DC converter adapted for converting direct current electrical power received from a first output terminal and a second output terminal of a high-voltage DC power supply, the DC-DC converter being adapted for supplying DC electrical power to a load at a well-regulated output voltage that is significantly lower than the voltage which the DC-DC converter receives from the high-voltage DC power supply, the DC-DC converter comprising:a) a regulated voltage-reduction stage which receives DC electrical power from the output terminals of the high-voltage DC power supply for supplying DC electrical power from an output of said voltage-reduction stage at a voltage which is lower than that received from the high-voltage DC power supply, said voltage-reduction stage including: i. a voltage-reduction electronic switch for alternatively: 1) electrically coupling the first output terminal of the high-voltage DC power supply to the output of said voltage-reduction stage; and 2) electrically de-coupling the first output terminal of the high-voltage DC power supply from the output of said voltage-reduction stage; ii. a low-voltage, voltage-reduction that is energized by DC electrical power received from the output terminals of the high-voltage DC power supply, the voltage-reduction IC supplying an electrical signal to the voltage-reduction electronic switch which controls alternative electrical coupling and de-coupling effected by the voltage-reduction electronic switch; iii. a voltage-reduction current source that is coupled to the voltage-reduction IC to effect a controlled flow of electrical current between the output terminals of the high-voltage DC power supply through the voltage-reduction IC and the voltage-reduction current source; b) a regulated isolation stage adapted for supplying DC electrical power to the load at the output voltage that is significantly lower than the voltage which the DC-DC converter receives from the high-voltage DC power supply, said regulated isolation stage including: i. an isolation transformer having: 1) a primary winding that receives DC electrical power from the output of said voltage-reduction stage; and 2) a secondary winding that is magnetically coupled to the primary winding; ii. at least one transformer electronic switch connected to the primary winding of the isolation transformer for alternatively: 1) permitting electrical current to flow between the output of said voltage-reduction stage through the primary winding of the isolation transformer and the transformer electronic switch to the second output terminal of the high-voltage DC power supply; and 2) blocking the flow of electrical current between the output of said voltage-reduction stage through the primary winding of the isolation transformer and the transformer electronic switch to the second output terminal of the high-voltage DC power supply; â€ƒwhereby AC is induced in the secondary winding of the isolation transformer; iii. a rectifier circuit coupled to the secondary winding of the isolation transformer for rectifying the AC received from the secondary winding to produce therefrom DC electrical power which the DC-DC converter is adapted for supplying to the load at the output voltage that is significantly lower than the voltage which the DC-DC converter receives from the high-voltage DC power supply; iv. an output-voltage sensor for producing an output signal which is responsive to the output voltage supplied to the load; v. a low-voltage, isolation-stage IC that is energized by DC electrical power received from the output terminals of the high-voltage DC power supply, the isolation-stage IC receiving the output signal produced by the output-voltage sensor and supplying an electrical signal to the transformer electronic switch for controlling the alternative electrical coupling and de-coupling effected by the transformer electronic switch responsive to the output signal received from the output-voltage sensor; and vi. an isolation-stage current source that is coupled to the isolation-stage IC to effect a controlled flow of electrical current between the output terminals of the high-voltage DC power supply through the voltage-reduction IC and the voltage-reduction current source; and c) a reduction-stage feedback circuit for coupling an output signal produced by the isolation-stage IC to the voltage-reduction IC for controlling the electrical signal which the voltage-reduction IC supplies to the voltage-reduction electronic switch.