RU2006115402A - HIGH-VOLTAGE POWER SYSTEM (OPTIONS) AND ELECTRONIC KEY FOR IT - Google Patents

Claims (49)

1. A high-voltage power supply system containing a power source, a safety key block, a control system, wherein one of the inputs of the safety key block is connected to the first bus of the power source, and the other input is connected to one of the outputs of the control system, characterized in that a current sensor and a voltage sensor are additionally introduced to it, the first bus of the power supply being connected via a voltage sensor to a common bus, and the output of the voltage sensor is connected to one of the inputs of the control system, while the paradise bus of the power supply through the current sensor is connected to a common bus, and the output of the current sensor is connected to the second input of the control system, and the second output of the control system is connected to the control input of the power supply, while the block of protective keys is made in the form of at least one electronic key based on transistors, and the output of the security key block is the output of the system. 2. The high-voltage power supply system according to claim 1, characterized in that the protective key unit is made in the form of at least one electronic key based on field-effect insulated gate or insulated-gate bipolar transistors. 3. The high-voltage power supply system according to claim 1, characterized in that the protective key unit is made in the form of N electronic keys based on field-effect insulated gate or insulated-gate bipolar transistors connected in series with each other. 4. The high voltage power supply system according to claim 1, characterized in that the current sensor is made in the form of a current transformer. 5. The high voltage power supply system according to claim 1, characterized in that the current sensor is made in the form of a resistor. 6. The high voltage power supply system according to claim 1, characterized in that the voltage sensor is made in the form of a voltage divider. 7. The high-voltage power supply system according to claim 1, characterized in that at least one bridge resonant converter is introduced into the power supply, while the input of each bridge resonant converter, which is the control input of the power supply, is connected to the corresponding output of the control system . 8. A high-voltage power supply system containing a power source, a protective key block, a control system, wherein one of the inputs of the protective key block is connected to one of the outputs of the control system, characterized in that a current sensor and a voltage sensor are further introduced therein, the first the bus of the power supply is connected to one of the inputs of the current sensor and through the voltage sensor with a common bus, while one of the outputs of the current sensor is connected to one of the inputs of the protective key unit, and the output of the voltage sensor is connected is connected to one of the inputs of the control system, the other input of which is connected to the corresponding output of the current sensor, and the output is connected to the corresponding input of the protective key block, and the second output of the control system is connected to the control input of the power supply, while the protective key block is made in the form, at least one electronic key based on transistors, and the output of the security key block is the output of the system. 9. The high-voltage power supply system according to claim 8, characterized in that the protective key unit is made in the form of at least one electronic key based on field-effect insulated gate or bipolar transistors with insulated gate. 10. The high-voltage power supply system according to claim 8, characterized in that the protective key unit is made in the form of N electronic keys based on field-effect insulated gate or insulated-gate bipolar transistors connected in series with each other. 11. The high voltage power supply system of claim 8, wherein the current sensor is made in the form of a current transformer. 12. The high voltage power supply system of claim 8, wherein the current sensor is made in the form of a resistor. 13. The high voltage power supply system of claim 8, wherein the voltage sensor is made in the form of a voltage divider. 14. The high-voltage power supply system of claim 8, characterized in that at least one bridge resonant converter is introduced into the power supply, while the input of each bridge resonant converter, which is the control input of the power supply, is connected to the corresponding output of the control system . 15. A high-voltage power supply system comprising a power supply, a safety key unit, a control system, the power supply including a primary power supply, a high-frequency transformer, a rectifier, a filter, and the output of a high-frequency transformer connected to the input of the rectifier, the output of which is connected to the input of the filter the output of which is connected to the first bus of the power supply, while the first bus of the power supply is connected to one of the inputs of the protective key block, the other input of which o connected to one of the outputs of the control system, characterized in that it additionally includes a current sensor and a voltage sensor, and at least one bridge resonant converter is introduced into the power supply, while one input of each bridge resonant converter is connected to the output the primary power source, and the other input of each bridge resonant converter is connected to the corresponding output of the control system, while the output of each bridge resonant converter is connected to the input m high-frequency transformer, the first bus of the power supply through a voltage sensor connected to a common bus, and the output of the voltage sensor connected to one of the inputs of the control system, while the second bus of the power supply through a current sensor connected to a common bus, and the output of the current sensor is connected with another input of the control system, while the block of protective keys is made in the form of at least one electronic key based on transistors, and the output of the block of protective keys is the output of the system. 16. The high voltage power supply system according to clause 15, wherein the bridge resonant converters are connected in parallel to each other. 17. The high voltage power supply system according to clause 15, wherein the output of each bridge resonant converter through a resonant circuit, consisting of at least one inductance and one capacitance connected in series, is connected to the input of the high-frequency transformer. 18. The high-voltage power supply system according to Claim 15, characterized in that the protective key unit is made in the form of at least one electronic key based on field-effect insulated gate or insulated-gate bipolar transistors. 19. The high voltage power supply system according to clause 15, wherein the protective key unit is made in the form of N electronic keys based on field-effect insulated gate or insulated-gate bipolar transistors connected in series with each other. 20. The high voltage power supply system according to clause 15, wherein the current sensor is made in the form of a current transformer. 21. The high voltage power supply system according to clause 15, wherein the current sensor is made in the form of a resistor. 22. The high voltage power supply system according to clause 15, wherein the voltage sensor is made in the form of a voltage divider. 23. A high voltage power supply system comprising a power supply, a safety key unit, a control system, the power supply including a primary power supply, a high frequency transformer, a rectifier, a filter, and the output of a high frequency transformer connected to the input of the rectifier, the output of which is connected to the input of the filter the output of which is connected to the first bus of the power source, characterized in that a current sensor and a voltage sensor are additionally introduced into it, and introduced into the power supply, at least one bridge resonant converter, wherein one of the inputs of each bridge resonant converter is connected to the output of the primary power source, and the other input of each bridge resonant converter is connected to the corresponding output of the control system, while the output of each bridge resonant converter is connected to the high-frequency input transformer, and the first bus of the power supply is connected to one of the inputs of the current sensor and through the voltage sensor with a common bus while one of the outputs of the current sensor is connected to one of the inputs of the protective key block, and the output of the voltage sensor is connected to one of the inputs of the control system, the other input of which is connected to the corresponding output of the current sensor, and one of the outputs of the control system is connected to the corresponding input of the block security keys, while the security key block is made in the form of at least one electronic key based on transistors, and the output of the security key block is the output of the system. 24. The high voltage power supply system according to item 23, wherein the bridge resonant converters are connected in parallel to each other. 25. The high-voltage power supply system according to item 23, wherein the output of each bridge resonant converter through a resonant circuit consisting of at least one inductance and one capacitance connected in series is connected to the input of the high-frequency transformer. 26. The high-voltage power supply system according to item 23, wherein the protective key unit is made in the form of at least one electronic key based on field-effect insulated gate or bipolar transistors with insulated gate. 27. The high-voltage power supply system according to claim 23, wherein the safety key unit is made in the form of N electronic keys based on field-effect insulated gate or insulated-gate bipolar transistors connected in series with each other. 28. The high voltage power supply system according to item 23, wherein the current sensor is made in the form of a current transformer. 29. The high voltage power supply system according to item 23, wherein the current sensor is made in the form of a resistor. 30. The high voltage power supply system according to item 23, wherein the voltage sensor is made in the form of a voltage divider. 31. A high-voltage power supply system comprising a power supply, a safety key unit, a control system, the power supply including a primary power supply, a high-frequency transformer, a rectifier, a filter, and the output of a high-frequency transformer connected to the input of the rectifier, the output of which is connected to the input of the filter wherein the first bus of the power supply is connected to one of the inputs of the protective key unit, the other input of which is connected to the corresponding output of the control system, characterized by the fact that a current sensor, a voltage sensor and an addition circuit are additionally introduced into it, and at least two bridge resonant converters, one high-frequency transformer, one rectifier, one filter, and one of the inputs of each bridge are introduced into the power supply the resonant converter is connected to the output of the primary power source, and the other to the corresponding output of the control system, while the output of each bridge resonant converter is connected to the input of the corresponding high frequency transformer, and the output of each filter is connected to the corresponding input of the addition circuit, the output of which is connected to the first bus of the power supply connected via a voltage sensor to a common bus, while the output of the voltage sensor is connected to one of the inputs of the control system, and the second bus of the power source power supply through the current sensor is connected to a common bus, while the output of the current sensor is connected to the corresponding input of the control system, while the block of protective keys is made in the form of at least one an electronic key-based transistors, and an output unit security keys is the output system. 32. The high-voltage power supply system of claim 31, wherein the output of each bridge resonant converter through a resonant circuit consisting of at least one inductance and one capacitance connected in series is connected to the input of the high-frequency transformer. 33. The high-voltage power supply system according to p. 31, characterized in that the protective key block is made in the form of at least one electronic key based on field with an insulated gate or bipolar transistors with an insulated gate. 34. The high-voltage power supply system according to p. 31, characterized in that the protective key block is made in the form of N electronic keys based on field insulated gate or insulated gate bipolar transistors connected in series with each other. 35. The high-voltage power supply system according to p, characterized in that the current sensor is made in the form of a current transformer. 36. The high voltage power supply system according to p, characterized in that the current sensor is made in the form of a resistor. 37. The high voltage power supply system according to p, characterized in that the voltage sensor is made in the form of a voltage divider. 38. The high voltage power supply system according to p, characterized in that the addition circuit is made in the form of a parallel connection of filters. 39. The high voltage power supply system according to p, characterized in that the addition circuit is made in the form of a series connection of filters. 40. A high-voltage power supply system comprising a power supply source, a protective key unit, a control system, the power supply source including a primary power source, a high-frequency transformer, a rectifier, a filter, and the output of a high-frequency transformer connected to the input of the rectifier, the output of which is connected to the input of the filter , characterized in that it additionally includes a current sensor, a voltage sensor and an addition circuit, and at least two resonant bridge a converter, one high-frequency transformer, one rectifier, one filter, while one of the inputs of each bridge resonant converter is connected to the output of the primary power source, and the other to the corresponding output of the control system, while the output of each bridge resonant converter is connected to the input of the corresponding high-frequency transformer moreover, the output of each filter is connected to the corresponding input of the addition circuit, the output of which is connected to the first bus of the power supply, connected to one of the inputs of the current sensor and through the voltage sensor with a common bus, while one of the outputs of the current sensor is connected to one input of the protective key unit, and the output of the voltage sensor is connected to one of the inputs of the control system, the other input of which is connected to the corresponding output of the sensor current, and one of the outputs is connected to the corresponding input of the security key block, while the security key block is made in the form of at least one electronic key based on transistors, and the output of the security key block is the output system. 41. The high-voltage power supply system of claim 40, wherein the output of each bridge resonant converter through a resonant circuit consisting of at least one inductance and one capacitance connected in series is connected to the input of the high-frequency transformer. 42. The high-voltage power supply system according to claim 40, characterized in that the protective key unit is made in the form of at least one electronic key based on field-effect insulated gate or bipolar transistors with insulated gate. 43. The high-voltage power supply system according to claim 40, characterized in that the protective key unit is made in the form of N electronic keys based on field-effect insulated gate or insulated-gate bipolar transistors connected in series with each other. 44. The high voltage power supply system of claim 40, wherein the current sensor is made in the form of a current transformer. 45. The high voltage power supply system of claim 40, wherein the current sensor is made in the form of a resistor. 46. The high-voltage power supply system according to claim 40, wherein the voltage sensor is designed as a voltage divider. 47. The high voltage power supply system according to claim 40, wherein the addition circuit is made in the form of a parallel connection of filters. 48. The high-voltage power supply system according to claim 40, wherein the addition circuit is made in the form of a series connection of filters. 49. An electronic key containing a high-frequency transformer, first and second transistors, a first diode, and one of the terminals of the secondary winding of the transformer is connected to the source of the first transistor, and the other terminal is connected to the source of the second transistor, while the anode of the first diode is connected to the source of the first transistor, and the source of the second transistor is the input of the electronic key, and the drain of the second transistor is the output of the electronic key, characterized in that the second diode, the third diode, the zener diode, the first and the second resistors and capacitor, while the cathode of the second diode is connected to the drain of the first transistor, and the anode of the second diode is connected to the cathode of the first diode and to one of the terminals of the first resistor, the second terminal of which is connected to the gate of the second transistor, with one of the terminals of the capacitor and the third diode the second terminals of which are connected to the source of the second transistor, while the second resistor is connected between the source of the second transistor and the gate of the first transistor, the zener diode anode is connected to the key input, and the cathode is connected to the key output.