RU97114635A

RU97114635A - HIGH VOLTAGE PULSE GENERATION DIAGRAM

Info

Publication number: RU97114635A
Application number: RU97114635/09A
Authority: RU
Inventors: Н.Хичкок Роджер; Дж.Марзиале Майкл; В.Томпсон Ланс
Original assignee: Сименс Медикал Системз, Инк.
Priority date: 1996-08-28
Filing date: 1997-08-27
Publication date: 1999-06-20

Claims

1. A circuit for generating high voltage pulses, comprising a DC power source having positive and negative terminals, characterized in that it comprises a flyback transformer having a primary winding and a secondary winding, the primary winding having first and second terminals for connecting to said DC power source current; means for generating a signal showing a current flowing in said primary winding, where said signal shows an amplitude of said current, and a solid-state switching circuit for connecting said DC power supply to said primary winding of said flyback transformer under a control signal and for disconnecting said source DC power supply from said primary winding under the action of said signal indicating that of said primary winding passes a predetermined current level.

2. The generating circuit according to claim 1, characterized in that the solid-state switching circuitry comprises first and second insulated gate bipolar transistors (IGBTs), where said first IGBT connects said first terminal of said primary winding to said positive terminal of said DC power source, when said first IGBT is in a conductive state and said second IGBT connects said second terminal of said primary winding to said negative water of said DC power supply when said second IGBT is in a conductive state.

3. The generating circuit according to claim 1, characterized in that the solid-state switching circuit further comprises first and second diodes connecting said first and second terminals of said primary winding with said positive and negative terminals of said DC power supply.

4. The generating circuit according to claim 1, characterized in that it further comprises a pulse forming circuit connected to said first and second terminals of said secondary winding, and a high voltage switch for shorting said pulse forming circuit under the action of a shorting signal.

5. The generating circuit according to claim 4, characterized in that the high-voltage circuit breaker includes a plurality of cascades of rectifiers with semiconductor control (VPU), each mentioned stage of the VPU contains a VPU, a resistor and a control signal generator, where said VPU has an anode, a cathode and the gate, said VPU, conducts current from said anode to said cathode in the presence of a control signal, generating a potential between said gate and said cathode, said control signal generates said generator a control signal torus, said resistor is connected between the anode and cathode, said cascades are connected in such a way that said TLVs are connected in series.

6. The generating circuit according to claim 5, characterized in that the control signal generator in each of said cascades comprises a secondary winding of a pulse transformer, each said secondary winding being connected to a common primary winding.

7. The generating circuit according to claim 1, characterized in that the voltage of said DC power source is greater than 250 volts and less than 10 kilovolts.

8. The generating circuit according to claim 1, characterized in that the means for generating a signal showing the current flowing in said primary winding is a sensing element.

9. The generating circuit according to claim 1, characterized in that it further comprises a pulse generating circuit connected to said first and second terminals of said secondary winding, said pulse generating circuit including core inductors, where said cores are capable of changing the inductance of said pulse shaping circuits.

10. A circuit for generating high voltage pulses in a radiation therapy device, comprising: a radiation source capable of generating an emitted beam having a variable output radiation power, characterized in that it comprises a direct current power source having positive and negative terminals; a flyback transformer having a primary winding and a secondary winding, said primary winding having first and second terminals for connecting to said DC power supply, and means for generating a signal indicative of the current flowing in said primary winding, said signal showing the amplitude of said current; moreover, the DC power source, said flyback transformer and said signal generating means are used to supply electric power to said radiation source so that an emitted beam is generated.

11. The generation circuit of claim 10, characterized in that it further comprises a solid-state shutdown circuit for connecting said DC power source to said primary winding of said flyback transformer under a control signal and for disconnecting said DC power source from a primary winding under action said signal indicating that a predetermined current flowed in said primary winding.

12. The generating circuit according to claim 11, characterized in that said solid-state shutdown circuit includes first and second IGBT transistors, where said IGBT connects said first terminal of said primary winding to said positive terminal of said DC power supply when said first IGBT is in a conductive state, and said second IGBT connects said second terminal of said primary winding with said negative terminal of said power source direct current when said second IGBT is in a conductive state.

13. The generating circuit according to claim 11, characterized in that said solid-state shutdown circuit further comprises first and second diodes connecting said first and second terminals of said primary winding to said positive and negative terminals of said DC power supply.

14. The generating circuit of claim 10, characterized in that it further comprises a pulse shaping circuit connected to said first and second terminals of said secondary winding, and a high voltage switch for shorting said pulse shaping circuit under the action of a shorting signal.

15. The generating circuit according to 14, characterized in that the said high-voltage switch includes a plurality of cascades of the switchgear, each said cascade of the switchgear comprising a switchgear, a resistor and a control signal generator, where each switchgear has an anode, a cathode and a gate, said switchgear current from said anode to said cathode in the presence of a control signal, generating a potential between said gate and said cathode, said control signal generates a control signal generator, said resistor is connected between said anode and cathode, said cascades are connected in such a way that said VPU are connected in series.

16. The generating circuit according to clause 15, wherein said control signal generator in each of said cascades comprises a secondary winding of a pulse transformer, each said secondary winding is connected to a common primary winding.

17. The generating circuit of claim 10, wherein said first and second terminals of said secondary winding are a pulse generating circuit, wherein said pulse generating circuit includes inductors with cores, said cores being capable of changing the inductance of said pulse generating circuit .