RU96113279A - HIGH VOLTAGE PULSE GENERATOR (OPTIONS) - Google Patents

Claims (7)

1. A high voltage pulse generator containing a first pulse transformer, in parallel with the primary winding of which are connected a series-connected switching element and a first storage capacitor, the contacts of which are the input of the generator, a second storage capacitor charged through this winding, a generator load and a three-electrode controlled a spark gap, through the working electrodes of which the second storage capacitor is discharged to the load, and the control electrode of this spark gap is connected to the output of the high voltage power take-off unit, including the first winding, the third capacitor, the second and third windings inductively coupled to each other in the presence of the core, as well as the third winding and the diode connected in series, characterized in that an additional switching an element, a second pulse transformer and a fourth capacitor, wherein the first winding is made inductively coupled directly to the primary winding of the first pulse trans of the formator, the core of the second and third windings inductively connected to each other is made saturable, the fourth capacitor and the second winding are connected in series, the fourth capacitor and the second winding are connected in series, the additional switching element and the primary winding of the second pulse transformer are connected in series, the free ends connected in series to the third winding and the diode connected to the control input An additional switching element, and in parallel with the secondary winding of the second pulse transformer, the third capacitor is turned on and the points of their connection are the output of the high voltage power take-off unit.  2. The high voltage pulse generator according to claim 1, characterized in that the control electrode of the arrester is built into the high potential electrode of this arrester.  3. The high-voltage pulse generator according to claim 1 or 2, characterized in that an inductance is introduced into it, in particular, a variable connected in series with the first winding circuit.  4. The high-voltage pulse generator according to paragraphs. 1, 2 or 3, characterized in that a two-electrode spark gap is inserted into it, connected between the output terminal of the high voltage power take-off unit and the control electrode of the three-electrode gap.  5. A high-voltage pulse generator comprising a first pulse transformer with an open magnetic circuit integrated in a coaxial forming line, the external part of the magnetic circuit being located near or directly on the external conductor of the forming line, and the internal one aligned with the internal conductor of the forming line, the primary winding of the transformer located near the external the conductor of the forming line and connected to it by one end, a follower is connected in parallel with the primary winding of the transformer but the connected switching element and the first storage capacitor, the contacts of which are the input of the generator, the secondary winding of the first pulse transformer is placed between the external and internal conductors of the forming line and connected at one end to the internal, the other to the external conductors of the forming line, the internal conductor of the forming line is connected or is high-potential working electrode of a controlled three-electrode spark gap having a control electrode, another working discharge electrode The nickname and the external conductor of the forming line are the output contacts of the generator, characterized in that a high-voltage power take-off unit is introduced into the generator, comprising a winding inductively coupled to the secondary winding of the first pulse transformer, a second pulse transformer with a saturable core, a third pulse transformer, second and third capacitors, an additional switching element and a diode, while in parallel with the inductive coupling winding with the secondary winding of the first pulse transformer the second capacitor and the primary winding of the second pulse transformer are connected in series, the second capacitor and the primary winding of the second pulse transformer are connected in series in series, the additional switching element and the primary winding of the third pulse transformer are connected in series, the free ends of the secondary winding of the second pulse transformer and the diode are connected in series control input additional switching about the element, a third capacitor is connected parallel to the secondary winding of the third pulse transformer, one of their connection points is connected to the connection point of the ends of the primary windings of the second and third pulse transformers and to the inner conductor of the forming line, and the other to the control electrode of the three-electrode spark gap the electrode of this arrester is integrated into the high-potential electrode of the arrester, the inductive coupling winding with the secondary winding of the first pulse transformer and structurally positioned in the space between the outer and the inner conductors forming line, the inner conductor line is made hollow and this cavity houses all the other elements of said PTO.  6. The high-voltage pulse generator according to claim 5, characterized in that an inductance is introduced into it, in particular, a variable, connected in series to the circuit of the first winding.  7. The high voltage pulse generator according to claim 5 or 6, characterized in that a two-electrode spark gap is inserted into it, connected between the output contact of the high voltage power take-off unit and the control electrode of the three-electrode spark gap.